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six top-notch supplements that can help you achieve your goals. Darrell Miller 12/6/23
<b>N Acetyl Cysteine: A Decades-Old Remedy With Many Uses</b> Darrell Miller 4/27/22
Beta-alanine supplementation relieves fatigue, increases musclecarnosine Darrell Miller 5/2/19
Scientists now understand why OMEGA-3s are good for your heart:They protect against DNA damage in the cells that line your blood vessels Darrell Miller 5/2/19
Vitamin C research booming, 'emerging evidence' promising - ThePress Darrell Miller 4/12/19
Study shows benefits of vitamin C in treating cancer Darrell Miller 2/1/19
The common causes of candida overgrowth Darrell Miller 1/22/19
The Remarkable Antioxidant Benefits of Liposomal Vitamin C Darrell Miller 9/7/18
Members of Congress and Senate in Support of the New CBD Bill Darrell Miller 5/13/17
Here's How CBD Can Help Your Hyper Toddler Darrell Miller 5/12/17
Scientists stunned as dried leaves achieve 100% CURE RATE among critically ill MALARIA patients after all pharma drugs failed Darrell Miller 4/29/17
10 easy ways to detox heavy metals from your body Darrell Miller 3/29/17
Virginia Legislature Passes Bill Allowing Use and Distribution of CBD and THC-A Oil Darrell Miller 3/26/17
High-dose vitamin C reduces inflammation in cancer patients, study shows Darrell Miller 12/7/16
Can EDTA help my cardiovascular system Darrell Miller 10/10/16
Improving Liver Health - Does NAC Help Improve Liver Health? Darrell Miller 9/25/15
What are the Health Benefits of Beta-Glucans Darrell Miller 12/22/14
EGCG in green tea Darrell Miller 5/10/14
What Is Beta Alanine And How Does It Improve My Athletic Performance? Darrell Miller 1/16/14
Can L-Glutathione Help The Liver Detox? Darrell Miller 11/22/13
Can Glutathione Taken Orally Be Effective? Darrell Miller 12/28/12
What is Vitamin K Good For? Darrell Miller 2/15/12
What Are Some Interesting Calcium Facts? Darrell Miller 10/1/11
What Are The Symptoms Of Magnesium Deficiency? Darrell Miller 8/15/11
The Benefits of GLA to Women Darrell Miller 6/15/11
How Does Taurine Help the Brain? Darrell Miller 5/13/11
Vitamin B2 Is Good for Nutrient Metabolism, Cellular Energy, And More Darrell Miller 5/10/11
Why Do We Need Essential Fatty Acids (EFA's) And What Source Is Best? Darrell Miller 2/15/11
Glutathion, Antioxidants, And The Body Darrell Miller 7/14/10
Natural Vitamins for the Heart Darrell Miller 7/6/10
NADH 10 mg And 20 mg Enhanced with Bioenergy RIBOSE Darrell Miller 12/10/09
Protect The Liver with Glutathione And Cysteine Darrell Miller 4/23/09
Thrombophlebitis Darrell Miller 4/15/09
Glaucoma (loose your eye sight) Darrell Miller 2/16/09
EDTA Darrell Miller 1/3/09
Potassium And Magnesium Darrell Miller 12/30/08
Inositol And Choline Darrell Miller 12/11/08
D-Ribose Darrell Miller 5/17/08
Butcher's Broom Extract Darrell Miller 5/2/08
Shark Cartilage Darrell Miller 4/30/08
GTF Chromium Darrell Miller 4/23/08
Boost digestion with Bifidus Longum and Acidophilus Probiotics Darrell Miller 3/21/08
Astaxanthin, a Member of the Carotenoid Family, is a Powerful Antioxidant Darrell Miller 1/31/08
L-Glutathione Can Eliminate Toxins in the Liver Darrell Miller 12/7/07
Tongkat Ali: The Natural Viagra? Darrell Miller 10/22/07
Paulings Vindication Darrell Miller 5/28/07
Vitamin C Citations Darrell Miller 5/28/07
Vitamin C History Darrell Miller 5/28/07
EpiCore Benefits Darrell Miller 4/9/07
CoQ10 for Heart Health Darrell Miller 3/28/07
Neurological Health and CoQ10 Darrell Miller 2/25/07
Which Calcium is Best? Darrell Miller 10/17/06
Vitamin B-1, C prove Worthy Complementary Therapies Darrell Miller 3/31/06
Benefits of L-Carnitine Darrell Miller 2/12/06
Benefits of Best Alpha Lipoic 35! Darrell Miller 2/12/06
Benefits of Acetyl-L-Carnitine Darrell Miller 2/12/06
Coenzyme Q10 and Cardiovascular Health. Darrell Miller 12/13/05
Super Cortisol Support Fact Sheet Darrell Miller 12/8/05
Vitaberry Plus + Super Fruit Antioxidant Darrell Miller 12/7/05
Dr. Verghese, M.D. Liver Detoxifier & Regenerator Fact Sheet Darrell Miller 12/7/05
Rhodiola - Adaptogenic Herbs & Immunity Enhancers Darrell Miller 12/6/05
Research on SAMe.... Darrell Miller 10/26/05
All SAM-e supplements are not created equal Darrell Miller 10/26/05
Benefits of Alpha Lipoic Acid Darrell Miller 10/13/05
Best Hyaluronic Acid w/Chondroitin Sulfate - Benefits of... Darrell Miller 7/27/05
ST. JOHN’S WORT AND AIDS/HIV Darrell Miller 7/15/05
Pain - Post Op and Relaxation Darrell Miller 7/13/05
FUNCTIONS Darrell Miller 7/12/05
Quercetin and Bromelain - for better health. Darrell Miller 7/4/05
REFERENCES Darrell Miller 6/25/05
CHITOSAN SAFETY Darrell Miller 6/25/05
INFECTIONS AND GARLIC Darrell Miller 6/25/05
SUMMARY Darrell Miller 6/24/05
ENDNOTES Darrell Miller 6/23/05
CLINICAL APPLICATIONS OF CAPSICUM Darrell Miller 6/23/05
Modified Citrus Pectin (MCP) and Mercury Cleansing Programs... Darrell Miller 6/21/05
Breathe Easy Darrell Miller 6/14/05
Green Power Darrell Miller 6/14/05
Breathe Easy - Don't underestimate the danger of asthma. Darrell Miller 6/12/05
Energy Vitamins Darrell Miller 6/11/05



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six top-notch supplements that can help you achieve your goals.
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Date: December 06, 2023 04:55 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: six top-notch supplements that can help you achieve your goals.

If you're looking to stay in the game longer and improve endurance while promoting rapid recovery, we've got you covered! six top-notch supplements that can help you achieve your goals.

For most of us, life can feel like quite the balancing act. In an ideal world, we would all have ample time throughout the day to dedicate to our health and well-being. However, reality paints a different picture, where 24 hours can seem like an insufficient amount of time to squeeze in work, school, family, and the countless responsibilities that life throws at us. In recent years, the use of supplements for recovery has gained popularity, becoming more common than ever before.

Our bodies face a barrage of daily stresses, including exposure to environmental toxins, electromagnetic pollution, and the strain of intense physical activity. These factors increase our body's demands for antioxidants and essential nutrients that aid in the process of recovery. While consuming antioxidant-rich foods can certainly make a difference, it can be challenging to meet these requirements solely through our diet. That's where a well-rounded supplement regimen can play a crucial role in promoting optimal health and aiding in recovery. Even with our best efforts to exercise regularly, eat nutritious meals, and get sufficient sleep, life in the 21st century can be incredibly demanding, depleting our bodies on a cellular level.

For athletes, consistent training is key to reaching desired performance levels. It's important to understand that the muscle recovery and building process primarily occurs between gym sessions. Developing a comprehensive recovery strategy during this crucial window, through the use of supplements, proper nutrition, and adequate rest, can help athletes perform at their best week in and week out. Failing to make the most of this recovery period may result in free radical damage and delayed onset muscle soreness (DOMS). To maximize the benefits, it's important to prioritize food as the primary source of vital nutrients, while also recognizing the significant role supplements can play in providing the necessary building blocks for muscle repair due to their rapid absorption rate. However, it's essential to ensure that any chosen supplements are clinically validated, demonstrating efficacy and supported by solid scientific evidence.

In today's fast-paced world, there is a growing demand for quick and convenient solutions to jumpstart the recovery process. Nevertheless, when it comes to choosing supplements, it's important to remember that one size does not fit all. The market offers an overwhelming array of options, often leaving individuals feeling bewildered about which products to select.

Before diving into my recommendations for the top six supplements to aid in recovery, I believe it's crucial to emphasize the significance of cellular renewal and its direct impact on the recovery process. This, in my opinion, serves as the key to achieving a quick and effective recovery.

Oxidation and Free Radical Damage

A fundamental key to staying young and maintaining optimal health is cellular renewal and minimizing the damage to cells over time. We all age, but studies have shown that some individuals age better than others. Have you ever wondered why? Well, recent research has linked oxidative stress to the aging process. So, what exactly is oxidative stress? Allow me to explain in simple terms – oxidation occurs when the body produces by-products commonly known as free radicals. It's almost like a machine rusting, but instead of rust forming on iron, our bodies experience the effects of aging and age-related diseases.

Now, our bodies naturally produce free radicals as part of our daily metabolism, and they can also be produced as a result of environmental pollutants from everyday things like air, water, and even sun exposure. As we age, our bodies become more vulnerable to the long-term effects of oxidative stress, which simply means we accumulate too many free radicals and experience increased inflammation at the cellular level.

As interesting as it may sound, the process of oxidation is actually abundant and can be beneficial for our bodies to function properly. But, and this is an important "but," this very process can also cause potential harm. You see, the oxidizing process creates these molecules called free radicals, which are electrically charged. These free radicals interact with our cells, and this interaction can lead to both positive and negative outcomes. For example, our immune system utilizes free radicals to help fight infection. However, when LDL cholesterol (often referred to as bad cholesterol) is oxidized, it can become a concern (cholesterol buildup).

Let's talk about oxidative stress. It occurs when the level of free radicals overwhelms the body's natural antioxidant defense system, resulting in cell damage. As I mentioned earlier, while free radicals serve useful functions in the body, they are highly unstable molecules. If they remain uncontrolled, they have the potential to wreak havoc by causing damage to cells, enzymes, and even our DNA, which ultimately accelerates the aging process. In addition, these free radicals can also contribute to the development of various age-related diseases, including arthritis, cancer, and heart disease

Now, inflammation is triggered by free radical damage, and it is this inflammation that leads to the negative effects of free radicals due to oxidation. The question then becomes, how can we address this in our daily nutritional regimen? The answer lies in the incorporation of antioxidants, which play a vital role in combating oxidative stress and minimizing the damage caused by free radicals in our bodies. You'll be glad to know that there are foods rich in antioxidant content that can help us on this journey. In fact, certain foods contain phytonutrients that, according to many health professionals, hold the potential to unlock the secrets of longevity and overall well-being.

So, my dear friend, let's take a proactive approach, nourish our bodies with antioxidant-rich foods, and strive to minimize the effects of oxidative stress caused by free radicals. It's never too late to make positive choices for our health and age gracefully.

Phytonutrients, also known as health boosters, are substances produced by plants to protect themselves from harmful bacteria and viruses. However, these compounds also offer significant benefits to the human body. Packed with essential nutrients, phytonutrients play an active role in promoting good health. They belong to the antioxidant family, responsible for eliminating harmful free radicals and thus slowing down the aging process. Incorporating a diet rich in high antioxidant foods like fresh fruits and vegetables is crucial as the first line of defense against aging.

While vitamins A, C, and E are commonly known antioxidants, there are other antioxidants available in both food and supplement form. These antioxidant supplements play a vital role in bridging the nutritional gap left by processed foods, lacking the necessary antioxidants and nutrients to combat free radicals effectively.

Let's take a closer look at my top six supplement recommendations, known for their efficacy in fighting oxidative stress and promoting optimal recovery:

Beta Alanine: As an amino acid derivative, Beta Alanine is proven to enhance Intramuscular carnosine content, improving the body's ability to buffer hydrogen ions. During exercise, the body accumulates hydrogen ions, contributing to fatigue and lowering pH levels. Beta Alanine supplementation can reduce fatigue, enhance exercise performance, and increase training volume. Whether it's interval training or weightlifting to improve running economy, incorporating beta-alanine can have a positive impact on endurance performance and overall training results.

BCAAs: Branched Chain Amino Acids (BCAAs) have become a staple supplement for athletes due to their role in muscle and energy production during exercise. Consisting of three essential amino acids - leucine, isoleucine, and valine - BCAAs have been shown to significantly reduce muscle soreness and expedite the recovery process. Supplementing with BCAAs helps prevent muscle breakdown, as the body does not need to rely on its own muscle tissue for energy. Consequently, protein synthesis remains high, supporting muscle growth and repair.

Creatine, a natural molecule found in muscle cells. When engaging in high-intensity workouts like weightlifting, Creatine helps your body produce adenosine triphosphate (ATP), a vital energy source. This amazing compound improves strength, boosts lean muscle mass, and aids in faster muscle recovery.

Flavonoid Root, a breakthrough extract known for its cardiovascular benefits. This extract is packed with potent antioxidants and acts as a nitric oxide booster, promoting increased endurance during workouts. Studies have shown that it fights against free radical damage and increases the flow of oxygen-rich blood, ensuring optimal cardiovascular health. You can also boost nitric oxide with beet root, and l-citruline.

Speaking of studies, a published research paper in Food and Nutrition Research (April 2016) highlighted the effects of the unique flavonoid root extract on arterial health. The study revealed that after one year of consumption, participants experienced a decrease in artery wall thickness, total cholesterol, LDL levels, and blood pressure. This indicates that the extract may help reduce the risk of oxidation-related cerebral vascular issues and improve overall cardiovascular health

Glutamine. It's the most abundant amino acid in the human body and plays a vital role in muscle recovery and repair. Glutamine aids in preventing muscle soreness, optimizing post-workout recovery, and supporting muscle rebuilding. By facilitating nitrogen transport, regulating acid-base balance, and acting as an antioxidant, Glutamine ensures faster post-workout muscle recovery, giving you the freedom to train harder for better results.

Protein plays a crucial role in replenishing and repairing your muscles after a workout, making it a key nutrient to consume alongside carbohydrates. By opting for a protein shake as a post-workout option, you can efficiently supply amino acids to your muscles, stimulating muscle protein synthesis, enhancing recovery, and promoting growth. It's important, though, to choose a protein shake that contains high-quality ingredients, as prioritizing quality over quantity is key when it comes to protein.

Apart from protein, there are several other supplements that work through various mechanisms to provide natural, broad-spectrum antioxidant and nutrient support, ultimately contributing to optimal health and recovery. Taking preventative measures to protect the health of different body systems is much easier than trying to restore their function after damage has occurred. With this in mind, retailers should suggest a preventive program to their customers, aiming to limit free radical damage and promote recovery. As the adage goes, "an ounce of prevention is worth a pound of cure," emphasizing the significance of protecting and preserving one's health.

In conclusion, the role of antioxidants, particularly phytonutrients, in maintaining overall health and combating oxidative stress cannot be overstated. These beneficial compounds not only slow down the aging process, but also enhance the body's ability to recover from physical exertion. Various supplements, including Beta Alanine, BCAAs, Creatine, Flavonoid Root, Glutamine, and Protein, each offer distinct benefits in supporting muscle growth, improving athletic performance, and promoting quicker recovery. The incorporation of these supplements into one's regimen can effectively bridge the nutritional gap left by processed foods. A preventive strategy, emphasizing a diet rich in antioxidants and high-quality supplements, holds the key to optimal health and longevity. As the saying goes, 'an ounce of prevention is worth a pound of cure'.

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6591)


N Acetyl Cysteine: A Decades-Old Remedy With Many Uses
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Date: April 27, 2022 11:53 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: N Acetyl Cysteine: A Decades-Old Remedy With Many Uses

Did you know that N Acetyl Cysteine has been around for decades? This powerful supplement was first discovered in the 1950s and has been used as a remedy for many health issues since then. We will discuss the many benefits of N Acetyl Cysteine and how you can start using it to improve your health!

Glutathione and aging

As we age, our natural levels of glutathione tend to decline. This is a major cause of many of the negative effects associated with the aging process, including reduced energy and slower recovery times after illness or injury. Fortunately, there are steps that we can take to increase our levels of glutathione, thus slowing down the aging process and keeping us feeling young and vibrant for longer. Some of these steps include eating a healthy diet rich in antioxidant-rich foods like fruits and vegetables, engaging in regular physical activity to improve circulation, and reducing stress levels through relaxation techniques like yoga and meditation. With these strategies in place, we can help to keep our bodies strong, boost our energy levels, and stay young well into old age. Fortunately, there is a supplement that could help, it is called N Acetyl Cysteine, this substance is a precursor to Glutathione and has been shown to boost glutathione levels.

What is N Acetyl Cysteine and what are its benefits?

N acetyl cysteine has been used as a supplement for many years, and its popularity is likely due to the many benefits it offers. The main function of this compound is to promote the production of glutathione, a powerful antioxidant that protects our bodies from oxidative stress and harmful free radicals. In addition, n acetyl cysteine has been shown to help reduce symptoms of certain mental health disorders, including anxiety and depression. Furthermore, studies have found that n acetyl cysteine may lower blood pressure and improve heart health by increasing blood flow and improving blood vessel function. Overall, it is clear that n acetyl cysteine has been an effective nutrient for many years and continues to be widely used by those looking for an easy way to support their health.

How can you start using N Acetyl Cysteine to improve your health?

N acetyl cysteine (NAC) is a powerful antioxidant that can help to protect cells from damage. It has been shown to be particularly effective in guarding against liver damage, and is often used as a treatment for hepatitis C. NAC can also help to improve lung function and relieve respiratory conditions such as bronchitis and asthma. In addition, NAC has been shown to boost levels of glutathione, which is a key molecule involved in detoxification. As a result, NAC can help to cleanse the body of harmful toxins and pollutants. NAC is available in supplement form, and can be taken orally or Intravenously. It is generally well tolerated, with mild side effects such as nausea and vomiting occasionally reported. When taking NAC supplements, it is important to start with a lower dose and increase gradually as tolerated. Those with pre-existing medical conditions should always speak to their doctor before taking any new supplement. Overall, NAC is a safe and effective way to improve your health and protect your cells from damage.

What is the recommended daily dosage for N Acetyl Cysteine per day?

The standard recommended dosage for N-acetyl cysteine (NAC) is 600 mg per day. However, some studies have used dosages as high as 2,400 mg per day. The most common side effect of NAC is nausea, which can be minimized by taking the supplement with food. NAC is also sometimes used as a treatment for chronic bronchitis, and the recommended dosage for this condition is 1,200 mg per day. When used for this purpose, NAC is typically taken in divided doses of 600 mg twice per day. There is currently no consensus on the optimal dosage of NAC for any particular condition, and further research is needed to determine the ideal dosage for different applications. In acute circumstances, one might need 4000mg to 6000mgs daily in divided dosages, always work your way up to higher dosages as needed.

What are some of the most common uses for this supplement?

There are many different uses for NAC, or N-acetyl cysteine. This potent antioxidant supplement has been found to be effective in addressing a wide range of health concerns, including asthma and COPD, chronic sinusitis, liver disease, and particularly serious conditions such as cancer. Additionally, NAC has been shown to provide support for the immune system in general and may also serve as a detoxifying agent by helping to eliminate waste products like heavy metals from the body. Overall, there are numerous benefits to using NAC as part of a well-balanced diet. Whether you are looking to improve your respiratory health or strengthen your immune system, this versatile supplement can help you achieve your goals.

NAC composition

NAC, or N-acetyl cysteine, is a complex compound that is composed of various amino acids, including glutamate, glycine, and cysteine. These specific amino acids all play important roles in the function of NAC and affect its many beneficial properties. For example, glutamate increases metabolism and energy levels, while glycine promotes tissue healing and regeneration. Cysteine, on the other hand, facilitates the transport of oxygen and serves as a natural antioxidant. When taken together, these different components work synergistically to promote overall health and wellbeing by supporting key physiological processes such as digestion and immune response. Whether taken as a supplement or consumed through food sources like eggs and milk products, NAC is a versatile substance that is vital to many aspects of our daily health and well-being.

NAC and liver health

N-Acetyl-Cysteine (NAC) is a compound that has numerous benefits for liver health. Studies have shown that NAC can help to protect the liver from damage caused by alcohol and other toxins. It does this by helping to replenish levels of glutathione, a key antioxidant that helps to detoxify the liver. NAC also helps to reduce inflammation and improve blood flow to the liver. As a result, it can be an effective treatment for both acute and chronic Liver diseases. In addition, NAC has been shown to improve the overall health of people with Liver cirrhosis. Consequently, N-Acetyl-Cysteine is a compound that has many benefits for liver health and should be considered as part of any comprehensive treatment plan.

NAC, its sulfur content, and mucus elimination

NAC, or N-acetyl cysteine, is a sulfur-containing amino acid that plays an important role in mucus production and elimination. The sulfur content of NAC helps to thin mucus and make it less sticky, making it easier to clear from the lungs. In addition, NAC helps to break down mucus and remove it from the body. As a result, NAC is often used as a supplement to treat respiratory conditions such as bronchitis and chronic obstructive pulmonary disease (COPD). NAC is typically taken in the form of capsules or tablets, and the recommended dose depends on the individual. However, side effects are rare and generally mild, making NAC a safe and effective option for those seeking to improve their respiratory health.

N Acetyl Cysteine may lower blood pressure

One of these is its ability to lower blood pressure. A review of several studies found that N-acetyl cysteine was effective at reducing blood pressure in people with hypertension. In one study, participants who took N-acetyl cysteine had an average reduction in systolic blood pressure of 9.5 mmHg, compared to those who took a placebo. Other studies have shown similar results, suggesting that N-acetyl cysteine may be an effective treatment for high blood pressure. While more research is needed to confirm these findings, N-acetyl cysteine may offer a safe and natural way to lower blood pressure.

N Acetyl Cysteine may help blood clots - thrombosis

Blood clots are a necessary part of the body's natural healing process. They help to stop bleeding by sealing off damaged blood vessels. However, sometimes blood clots can form in healthy blood vessels, causing a potentially deadly condition called thrombosis. N Acetyl Cysteine is a compound that helps to break up blood clots and prevent thrombosis. It works by preventing the formation of a protein that is essential for clotting. In addition, N Acetyl Cysteine helps to improve the flexibility of blood vessels, making them less likely to rupture. As a result, this compound may help to reduce the risk of thrombosis and improve overall cardiovascular health.

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6394)


Beta-alanine supplementation relieves fatigue, increases musclecarnosine
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Date: May 02, 2019 03:37 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Beta-alanine supplementation relieves fatigue, increases musclecarnosine





It has been found in a study that supplementing with beta-alanine can increase muscle carnosine and relieve fatigue. The study was published in the journal Nutrition Research and the team looked at the effects of beta-alanine supplementation on performance, L-histidine, and muscle carnosine in both women and men. This confirms earlier studies that supplementing with beta-alanine increases muscle carnosine, therefore improving the capacity of the muscles to buffer during intense exercise. The research team emphasized their comparison on the differences between women and men, and recruited 26 men and women who were given a placebo or beta-alanine for 28 days. It was shown that beta-alanine really increased muscle carnosine but the differences between men and women were unclear.

Key Takeaways:

  • The University of Central Florida researchers have made a study and in the study they suggested that supplementing with beta-alanine can relieve fatigue.
  • The focus of the study that was published in the journal Nutrition Research was whether supplementing with beta-alanine has an effect on performance, muscle carnosine, and L-histidine.
  • Studies that were done earlier before this one has shown that supplementation with beta-alanine increases the intramuscular carnosine content and improves buffering capacity in intense exercises.

"The findings of the study suggested that supplementing with beta-alanine for 28 days can increase muscle carnosine and relieve fatigue in men and women, but did not reduce muscle L-histidine."

Read more: https://www.naturalnews.com/2019-03-19-beta-alanine-relieves-fatigue-increases-muscle-carnosine.html

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6246)


Scientists now understand why OMEGA-3s are good for your heart:They protect against DNA damage in the cells that line your blood vessels
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Date: May 02, 2019 02:43 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Scientists now understand why OMEGA-3s are good for your heart:They protect against DNA damage in the cells that line your blood vessels





In the era where there has been an increase in people's interest in physical health, one of the biggest things that has taken trend is that of OMEGA-3s and claims that they are good for a variety of reasons. Although until recently it has been unknown why it was good for you, new research has now shown that these nutrients can be beneficial for your heart, especially in terms of protecting it against DNA damage that can injure blood vessels.

Key Takeaways:

  • To help stop the plague that is affecting the planet in the form of heart and arterial diseases, experts recommend foods rich in omega-3 fatty acids.
  • Although experts have not explained why omega-3 fatty acids are good for heart health, new research has found that it has components that prevents free radicals from causing harm.
  • Omega-3 fatty acids are rich in EPA and DHA which reduce the harm caused by intracellular reactive oxygen species to heart cells.

"Eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), components found in omega-3 fatty acids, promote antioxidant responses in the human aortic endothelial cells, protecting DNA from oxidative stress from reactive oxygen species (ROS)."

Read more: https://www.naturalnews.com/2019-03-12-omega-3s-protect-against-dna-damage-in-the-blood-vessels.html

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6242)


Vitamin C research booming, 'emerging evidence' promising - ThePress
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Date: April 12, 2019 04:02 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Vitamin C research booming, 'emerging evidence' promising - ThePress





Researchers from around the world will convene in Australia, sharing the newest research on Vitamin C. Controversy precedes the gathering, with opposing claims on vitamin C’s effectiveness in treating cancer. This debate harkens back to research conducted in the 1970’s, but the results of recent trial might sway naysayers; it reported an 80% mortality reduction rate for those suffering from sepsis. Supporters from University of Otago claim that vitamin C’s hype has been largely ignored in the past, but more and more studies garner its support. Opposition from the same school submit the gathering evidence is substantial, but more research must be conducted.

Key Takeaways:

  • Vitamin C has potential impact on the treatment of serious illnesses such as cancer.
  • Vitamin C research has been conducted to test the effects it has on sepsis.
  • Vitamin C used to be considered alternative medicine, but science is changing the way doctors view it.

"Alongside traditional treatments, patients with septic shock are being given intravenous doses of vitamin C, totalling about 7g a day."

Read more: https://www.stuff.co.nz/national/health/110559685/vitamin-c-research-booming-emerging-evidence-promising

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6128)


Study shows benefits of vitamin C in treating cancer
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Date: February 01, 2019 08:50 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Study shows benefits of vitamin C in treating cancer





First discovered in 1912, Vitamin C is a crucial nutrient that plays roles in immunity, tissue repair, synthesis of vital neurotransmitters and protection of the body from free radicals as an antioxidant. Cancer Research recently published a new Phase 1 human trial which suggests that adding intravenous Vitamin C to traditional chemotherapy can significantly increase survival rates. This may be related to Vitamin C’s potential benefits in protecting against the stres that chemotherapy drugs put on the body.

Key Takeaways:

  • Vitamin C has lots of benefits. It was discovered in 1912 and has become the first vitamin that was synthesized in the laboratory.
  • Vitamin C is essential for the repair of tissue damage, the production of specific neurotransmitters, and it aids white blood cells to kill bacteria and other invaders.
  • Intravenous use of Vitamin C in traditional medicine is long known in traditional medicine. What is worrisome about it is its high antioxidant activity.

"A recent medical study evaluating the effect of adding intravenous vitamin C during chemotherapy for pancreatic cancer demonstrated significant benefits."

Read more: https://www.dailyherald.com/entlife/20181222/study-shows-benefits-of-vitamin-c-in-treating-cancer

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=5996)


The common causes of candida overgrowth
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Date: January 22, 2019 04:39 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: The common causes of candida overgrowth





Candida albicans is a form of yeast that is present in small colonies across the human body. Unfortunately, when these clusters grow to an abnormal size, the heightened populations can cause some serious health concerns such as mouth ulcers, gastrointestinal issues, and even psychological symptoms. Researchers are now finding links between the overgrowth of Candida albicans and potential triggers such as: fermented foods like pickles, contraceptives, the overuse of antibiotics, and several other contributing factors.

Key Takeaways:

  • Candida albicans is common in the human body but common signs of candidiasis or candida overgrowth include bloating, diarrhea, fatigue, flatulence, and joint pain.
  • Contraceptives or birth control pills, and intrauterine devices can kill good bacteria and encourage the growth of yeast in the human body.
  • Although fermented foods like kimchi, pickles and sauerkraut, are good for the gut bacteria, they can also encourage candida overgrowth so it is wise to eliminate them.

"However, when candida populations swell into an overgrowth, you can develop severe health problems."

Read more: https://www.naturalnews.com/2018-12-25-the-common-causes-of-candida-overgrowth.html

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=5983)


The Remarkable Antioxidant Benefits of Liposomal Vitamin C
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Date: September 07, 2018 10:53 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: The Remarkable Antioxidant Benefits of Liposomal Vitamin C





The Remarkable Antioxidant Benefits of Liposomal Vitamin C

Vitamin C is an essential vitamin for immune function. However, our bodies do not make Vitamin C on it's own and does not store it at all. However, a recently developed lipid called Liposomal Vitamin C is said to help. Liposomal Vitamin C offers another way to absorb Vitamin C by shuttling itself into the blood stream without digestion. Liposomal Vitamin C can be dispersed intravenously, meaning it goes straight into the blood stream, which offers a faster distribution and absorption of the Vitamin C.

Key Takeaways:

  • Our bodies do not make Vitamin C or store it on their own.
  • Liposomal Vitamin C is a lipid that offers another way to absorb Vitamin C within the body.
  • Liposomal Vitamin C can be dispersed intravenously, meaning it goes straight into the bloodstream.

"Despite the advantages of taking a multivitamin or getting your vitamin C through various nutritious foods, liposomal vitamin C offers another way to absorb this immune-boosting vitamin, and it may be the most beneficial."

Read more: https://www.myhdiet.com/healthnews/cancer-news/the-remarkable-antioxidant-benefits-of-liposomal-vitamin-c/

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Members of Congress and Senate in Support of the New CBD Bill
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Date: May 13, 2017 06:44 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Members of Congress and Senate in Support of the New CBD Bill





A website for marijuana advocates has issued a story about a new bill working through Congress. This bill would exempt Cannabidiol, or CBD, from being categorized as a controlled substance. CBD has been found to be useful for a form of epilepsy called intractable. Intractable epilepsy does not respond well to conventional medications. Several Republicans have publicly supported this exemption, A YouTube video is included. The video has the support of the Epilepsy Foundation. There were four comments.

Read more: Members of Congress and Senate in Support of the New CBD Bill

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Here's How CBD Can Help Your Hyper Toddler
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Date: May 12, 2017 08:44 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Here's How CBD Can Help Your Hyper Toddler





An Israeli study of 74 pediatric patients who suffered with intractable epilepsy that did not respond to medications were given CBD oil and the results were promising. Almost 90 percent of the patients experienced a reduction in seizure activity. The use of traditional antipsychotic drugs come with several side effects, CBD oil can avoid these complications. There is also evidence that it can control ADHD and hyperactivity disorder in toddlers without causing drowsiness, the evidence continues to grow that this treatment should be studied.

Key Takeaways:

  • There are many anti seizure medications that are not effective towards epilepsy and is unfortunately common.
  • CBD oil is a great homeopathic remedy for treating epilepsy in children.
  • ADHD symptoms can be reduced with different strains and levels of cannabis.

"Although this is the case, it is important to look at the current evidence as well as alternative solutions for our children."

Read more: https://www.greenrushdaily.com/2017/05/02/cbd-hyper-toddler/

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Scientists stunned as dried leaves achieve 100% CURE RATE among critically ill MALARIA patients after all pharma drugs failed
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Date: April 29, 2017 07:14 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Scientists stunned as dried leaves achieve 100% CURE RATE among critically ill MALARIA patients after all pharma drugs failed





Artemisia annua, or as it's commonly known as sweet wormwood, was used to treat patients in the Congo who suffered from medicine resistant malaria, and were cured. After the 18 patients failed to respond t0 intravenously administered artesunate, the wormwood leaves were dried, powdered and made into tablets that were given to the patients. This cure is not widely prescribed because big pharma companies spend money to prevent these botanical cures from being used. They care more about profit than patient's lives. There are other diseases that can respond to natural treatments as well and it's important to get the word out.

Key Takeaways:

  • Sweet worm wood has cured people of drug resistant strains of malaria.
  • Ancient Chinese medicine men used this plant to treat malaria before pharmaceuticals were invented.
  • The pharmaceutical industry is unable to find a cure. Leaving thousands of people to die from what turns out is a curable disease.

"When all pharma drugs failed to do anything for Congo patients infected with drug-resistant malaria, a courageous local doctor dared to prescribe the ground leaves of the Artemisia annua plant instead. The plant is commonly known as sweet wormwood or sweet annie."

Read more: http://www.naturalnews.com/2017-04-24-scientists-stunned-as-dried-leaves-achieve-100-cure-rate-among-critically-ill-malaria-patients-after-all-pharma-drugs-failed.html

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10 easy ways to detox heavy metals from your body
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Date: March 29, 2017 11:29 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: 10 easy ways to detox heavy metals from your body





There are ways to rid your body of toxins and heavy metals that are natural and easy to incorporate into your daily life. Juices and cleanses work but sometimes there are unpleasant side effects. Diet, exercise, sleep, saunas and deep breathing are some things you can do on your own to remove toxins and heavy metals from your system. Acupuncture and chelation also work. There are natural foods that will give the same benefits as intravenous chelation, such as dark green leafy vegetables, citrus fruits and fermented foods.

Key Takeaways:

  • Detoxing is very healthy for your body. However, some methods have unwanted side effects.
  • There are ways to properly detoxify without the use of juices and cleanses.
  • Proper diet with superfoods and exercise is key to detoxing your body. Dry brushing, massages, and acupuncture are also good ways.

"Full detox, cleanses, and juicing all help rid the body of heavy metals and other toxins."

Read more: http://www.naturalnews.com/2017-03-27-10-easy-ways-to-detox-heavy-metals-from-your-body.html

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Virginia Legislature Passes Bill Allowing Use and Distribution of CBD and THC-A Oil
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Date: March 26, 2017 08:44 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Virginia Legislature Passes Bill Allowing Use and Distribution of CBD and THC-A Oil





Current Virginia legislation under consideration would expand the use of cannabis oils containing CBD and THCA to more patients than just those with certain kinds of seizure disorders. The new bill would include patients who suffer from AIDS/ HIV, Krohn's and other disorders where treatment is deemed appropriate by a doctor. The bill would also allow two important aspects:it would allow pharmacies to manufacture products and also end the current policy of suspending drivers license for those in possession.

Key Takeaways:

  • Under current Virginia law, oil made from CBD or THCA (both compounds found in cannabis) is legal to possess and use for medical purposes, but only for those with intractable epilepsy.
  • The proposal also allows pharmacies to manufacture and distribute the medicines to qualified patients.
  • Virginia’s full legislature also recently passed a measure to end driver’s license suspensions for marijuana possession charges.

"The newly-approved measure would greatly expand the list of conditions that makes someone eligible to use these medicines to include HIV/AIDS, cancer, Crohn’s disease, multiple sclerosis and several others."

Read more: https://thejointblog.com/virginia-cbd-thca-oil/

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High-dose vitamin C reduces inflammation in cancer patients, study shows
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Date: December 07, 2016 04:59 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: High-dose vitamin C reduces inflammation in cancer patients, study shows





It is was the first time this type of treatment was tested and studied specifically for its effects on inflammation in cancer patients. The results found indicate great promise for the use of high-dose Intravenous vitamin C treatments to help reduce inflammation in cancer patients, which is one of the major factors of cancer and its progression. A range of cancers has been proven to benefit from vitamin C treatments, including cancers of the prostate, breast, skin, bladder, lung, pancreas, thyroid, and B-cell lymphoma.

Key Takeaways:

  • Now, another study is confirming its effectiveness against inflammation in cancer patients, one of the primary markers.
  • High levels of inflammation seem to indicate a higher risk of cancer as well as a less hopeful prognosis for healing and recovery.
  • The current amount of inflammation in the body can actually predict the chances and length of survival time for numerous types of cancer.

"High levels of inflammation seem to indicate a higher risk of cancer as well as a less hopeful prognosis for healing and recovery."



Reference:

https://www.google.com/url?rct=j&sa=t&url=//beforeitsnews.com/health/2016/11/high-dose-vitamin-c-reduces-inflammation-in-cancer-patients-study-shows-2685671.html&ct=ga&cd=CAIyGjVkYjY3ZDViNDdiNGM3ZTc6Y29tOmVuOlVT&usg=AFQjCNG6cmuxsW-aHmxvEVt_iv91-ZQBYw

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Can EDTA help my cardiovascular system
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Date: October 10, 2016 03:14 PM
Author: Darrell Miller
Subject: Can EDTA help my cardiovascular system

EDTA, also referred to as Calcium Disodimum Edathamil, is a synthetic amino acid used to treat a host of conditions including cardiovascular diseases. It can be administered Intravenously, Intramuscularly or orally.

Primary use: Detox Metals and Clean Veins

The hardening that occurs in our arteries, commonly known as atherosclerosis, contributes massively to poor cardiovascular health. This plaque buildup blocks your arteries causing diseases like high blood pressure, high cholesterol levels and heart attacks. 

 EDTA chelation therapy has been proven to effectively dissolve the plaque restoring the arteries to their previously clear state. The healthy arteries allow good blood flow eliminating cardiovascular diseases.

EDTA is also beneficial in lead poisoning treatment. It has the ability to bind itself to heavy metals like lead, arsenic and mercury in the bloodstream. EDTA treats heavy metal toxicity. It is also used in dentistry during root canals, as well as to remove excess digoxin (the drug used for abnormal heart rhythms) in the body.

Everybody should take EDTA once a year to maintain a health cardiovascular system.


References:

//www.webmd.com/vitamins-supplements/ingredientmono-1032-edta.aspx?activeingredientid=1032&
//umm.edu/health/medical/altmed/supplement/ethylenediaminetetraacetic-acid
//www.life-enhancement.com/magazine/article/531-oral-edta-helps-restore-cardiovascular-function


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Improving Liver Health - Does NAC Help Improve Liver Health?
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Date: September 25, 2015 01:33 AM
Author: Darrell Miller
Subject: Improving Liver Health - Does NAC Help Improve Liver Health?

All organs in our body have purposes why they exist. This includes our football size liver. Many people take their liver health for granted. Since it is an internal organ, we do not see the actual effects of toxins and unhealthy lifestyle as they slowly destroy the liver. However, we might feel the results from time to time. Our liver has the size of a football, making it a star football player in our digestive system where everything passes through it. It cleanses the blood by taking away hazardous chemicals, converting the liquid into bile, which is then used to break down fat from the food we eat. The liver also stores glucose, a sugar that quickly boosts energy. So how do we take care of our liver?


How to Take Care of Liver Health

  • Moderately drink alcohol

It is okay to enjoy and have fun, but to do it every day with a lot of alcohol is dangerous. Drinking too much alcohol leads to the swelling of liver cells.

  • Maintain a healthy diet and have regular exercise

Controlling what you eat and good amount of exercise will help you avoid non-alcoholic fatty liver diseases, a condition that might lead to severe liver damage.

  • Be careful with the medicines you are taking

There are some medicines such as Tylenol and cholesterol drugs that may hurt your liver when taken in uncontrolled doses. Also avoid taking medicines with alcohol, because they are not a good combination, or joining different drugs together.

  • N-acetyl cysteine (NAC)

Many studies say that liver diseases are caused by the lack of Glutathione or GSH in our body. That is why NAC comes to the rescue.

NAC is a small protein powerful to restore Intracellular level of Glutathione or GSH, an effective antioxidant. The GSH is most needed by those who have liver diseases because it protects the liver against toxicity. When you are suffering from stress caused by a chronic liver disease, there is the reduction of glutathione, which is why there is a need to supplement it. NAC also helps to protect against present liver damages by reducing a wide range of chronic, deteriorating issues which include liver inflammation and impaired glucose control.

Taking good care of our liver health is like grooming a football superstar. Always watch out of the things you are doing to it.

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What are the Health Benefits of Beta-Glucans
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Date: December 22, 2014 04:54 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: What are the Health Benefits of Beta-Glucans

mushroom beta-glucan

What are Beta-glucans?

Beta glucan is a biological response modifier that nutritionally activates the immune response through the Dendritic, Macrophage and other immune cells to produce various therapeutic effects.

Beta-glucans are sugars found in the cell walls of algae, fungi, lichens, bacteria, yeasts, and plants, such as oats and barley. They can be use as medicine.

Benefits of beta-glucan

Beta-glucans are use for cancer, diabetes, HIV/AIDS and high cholesterol. Beta-glucans are also use for boosting the immune system in people whose body defenses have been weakens by emotional or physical stress, chronic fatigue syndrome or by treatments such as chemotherapy or radiation. Beta-glucans are also used for ulcerative colitis, hepatitis, multiple sclerosis, aging, H1N1 flu, Lyme disease, allergies, fibromyalgia, ear infections, rheumatoid, asthma and crohn's disease.

Beta-glucans is applied to the skin for wrinkles, dermatitis, burns, eczema, bedsores, radiation burns, wounds and diabetic ulcers.

Beta-glucans can be given by injection into the muscle or Intravenously to boost the immune system in people with HIV/AIDS and related conditions and to treat cancer. Beta glucans are also given Intravenously to prevent infection in people who have undergone surgery.

Beta-glucans can be given by subcutaneously for reducing the size of skin tumors or for treating them.

In the food industry, beta-glucans are used as an additive in products such as cheese spreads, frozen desserts, salad dressings and sour cream.

Adding beta-glucans to your diet either in form of foods that contain the compound or in form of food supplements plays a significant role in boosting your immune system to help your body fight diseases.

How does beta-glucans work?

When taken by mouth, Beta-glucans lower blood cholesterol by inhibiting the absorption of cholesterol from food in the intestines and stomach. Beta-glucans stimulate the immune system by increasing chemicals that prevent infections when given by injection.

Studies by leading scientists and medical experts have shown that Beta-glucans act as immunomodulator agents by triggering events that regulate and increase the efficiency of the immune system. Beta-glucans stimulate the activity of immune cells that attack and ingest invading pathogens.

Immune cells such as Macrophages release cytokines that are chemicals that enable immune cells to communicate with each other. In addition, Beta-glucans increase the activity of white blood cells that bind to viruses or tumors, and release chemicals to destroy it. Beta-glucan is a biological response modifier that nutritionally activates the immune response through the Dendritic, Macrophage and other immune cells to produce various therapeutic effects.

The potential side effects of Beta-glucan when taken by mouth are unknown. When used by injection, Beta-glucans can cause fever, pain at the injection site, chills, vomiting, headache, nausea, dizziness, rashes, diarrhea, back pain, joint pain and low blood pressure.

Where does Beta-glucan come from?

The body does not produce Beta-glucan naturally; you can only get it from outside sources such as shiitake mushrooms, baker’s yeast and cereal grains such as wheat, oats, barley and rye.

The most potent form of beta glucan is extracted as a purified isolate from the yeast cell wall of Baker's yeast with harmful yeast proteins removed by a process that prevent clumping or reaggregation after exposure to water during digestion. Research has shown that Beta- glucan is a safe and potent immune potentiation isolate.


URL references

  1. //www.rxlist.com/beta_glucans/supplements.htm
  2. //www.med.nyu.edu/content?ChunkIID=104429
  3. //www.ncbi.nlm.nih.gov/pubmed/17895634
  4. //www.healthline.com/health/beta-glucan-heart-healthy

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EGCG in green tea
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Date: May 10, 2014 07:38 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: EGCG in green tea

Green tea benefits

green tea leavesGreen tea is made from the leaves of Camellia Sinensis, which is recognized for its health benefits. The nonfermented product is obtained by leaf desiccation that contains potent, polyphenolic antioxidants, with a flavanolic structure referred to as green- tea catechins, including epigallocat-echin-gallate (EGCG). Studies have shown that drinking EGCG prevents carcinogenesis in rodent organs. Studies have shown it had a significant chemoprotective effect against DMBA-induced mammary tumorigenesis in rats. Human breast cancer cell proliferation inhibition by green tea appeared mediated in part by (CKI). Mutagenesis was inhibited at concentration levels equivalent to human daily consumption.

Using human umbilical vein endothelial cells, it was demonstrated that green tea extracts reduced expression of vascular endothelial growth factor (VEGF) receptors forms-like tyrosine kinase and fetal liver kinase. Kinase insert domain containing receptor. Because of the antiangiogenic property of its extracts, they have therapeutic potential in preventing the development of new microvascular networks (angiogenesis) needed for tumor growth. It was also found that green- tea polyphenols inhibited angiogenesis by reducing vascularization of chicken chorioallantoic membrane (CAM) by an angiogenin-like protein isolated from goat serum.

EGCG effectively inhibited bladder-tumor implantation growth in rats, pointing to its potential as an Intravesical chemotherapeutic agent. Inhibition of platelet function is a factor in reducing the risk of coronary artery disease. EGCG was reported to inhibit platelet aggregation, by possibly involving inhibition of cytoplasmic calcium increase. EGCG was proven to be the most effective in reducing thrombin-induced aggregation of washed human platelets. The ability of green- tea catechins to inhibit adenovirus infection and adenain, the human adenovirus 2 endopeptidase, was reported. EGCG proved the most potent inhibitor of four green-tea catechins tested. The viral protease adenain appeared to be the target of EGCG, so it is possible that all adenoviruses are sensitive to its action.

The Chinese have known about medicinal qualities of green tea since ancient times, treating everything from headaches to depression.

The three "Es"

  1. enjoyment (soothing)
  2. energy (caffeine)
  3. essential health benefits (antioxidants)

Provides support for a healthy weight loss program, gives the energy needed to maintain an active lifestyle, health, and longevity. The appetite suppressor, Vanadium, reduces calorie intake. Thermogenesis, or fat metabolism, is increased, because of the EGCG/caffeine combination, therefore burning fat.

EGCG fights free radicals. Fatty acids and lipids in the brain are susceptible to the effects of free radical perodixation. Much of the aging of the brain is attributed to perodixation. The EGCG helps to keep us young, alert, and able. Researchers have found that EGCG has inhibited tumor growth in both skin and gastrointestinal tracts. EGCG may fermented be able to obliterate cancer cells, without harming neighboring tissues.

 

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What Is Beta Alanine And How Does It Improve My Athletic Performance?
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Date: January 16, 2014 05:32 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: What Is Beta Alanine And How Does It Improve My Athletic Performance?

beta alanineBeta alanine

Beta-alanine is classified under non-essential amino acid; which imply that the body is able to produce.

Amino Acid

Amino acids are the building components of proteins. Beta-alanine is a precursor to the compound carnosine; which, functions by regulating the acidic environment resulting from active muscles. In a case where the cellular environment inside the muscle becomes too acidic, then the muscle ceases to function. To prevent this carnosine slows down or attenuates the development of an acidic environment allowing an athlete to perform better or exercise with more work load.

What is Carnosine

Carnosine is very effective at controlling the hydrogen ions that cause then negative effects of lactic acid. Carnosine is understood to be one of the main muscle buffering substances contained in skeletal muscle. Therefore when carnosine prevents the arising of an acidic environment which characterizes a high-intensity exercise, the athlete is able to exercise at high intensities for a longer period.

When carnosine is ingested directly through the mouth it is rapidly converted into beta-alanine and histidine by the enzyme carnosinase as soon as it enters the blood stream. It is thus ineffective when carnosine is ingested directly. However,separate ingestion of beta-alanine and histidine results in these two compounds re-conversion to carnosine after absorption into the skeletal muscle.

Beta-alanine has great benefit in improving athletic performance and exercise intensity, and the building of lean muscle mass.

Research indicates that beta-alanine is the amino acid that highly affects Intramuscular carnosine amount as it is the rate-regulating substrate in this chemical reaction (Dunnett and Harris 1999).

Recommended Use for Beta Alanine

It is highly recommended that beta-alanine be taken in daily dosages in order to be highly effective, with dosage amounts varying from different expert opinions as well as dependant on the athlete preference.

Studies have indicated that 28 days dosage of 4 to 6 g/day of beta-alanine supplementation resulted in an approximately 60% improvement of Intramuscular rates (Harris et al. 2005; Zoeller et al. 2007)

References:

  1. //www.humankinetics.com
  2. //www.nutritionexpress.com

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Can L-Glutathione Help The Liver Detox?
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Date: November 22, 2013 10:25 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Can L-Glutathione Help The Liver Detox?

What is L – Glutathione

liver detoxL – Glutathione can be defined as a non-protein thiol present in the body (especially in the liver). It can protect the body’s cells from free radical damage, and plays an important role in the detoxification of the body. There are many aspects of L – Glutathione that will explain why it is so beneficial to the body. One of its main aspects is the tremendous ability to detoxify the entire body. With this in mind, it is possible for it to help with the detoxification of the liver. So how does it work?

Natural detoxification

The liver is the body’s main organ of detoxification. It is also the body’s most concentrated source of L – Glutathione. Studies have proven that low levels of this non-protein thiol will lead to poor liver function. This in turn will result with more toxins circulating through the body leading to damage to individual organs and cells. With this in mind, it is easy to understand why sometimes doctors use L – Glutathione promoting drugs to detoxify people who have overdosed on certain drugs.

Cell protecting

Apart from being able to detoxifying organs of the body including the liver, L – Glutathione is able to protect cells of the same organs. A liver that has been detoxified will need to have cell protection if it is to remain at optimal performance. L – Glutathione helps to prevent free radical damage of cells. Since the liver is made of cells, it can stay healthy when there is sufficient supply of L- Glutathione. It also helps to metabolize carcinogens and toxins.

Some foods (meats, vegetables and fruit) contain it, and the body can make its own in the liver. In the event that there has been extensive damage to the liver, other stronger sources of  L- Glutathione might be needed for detoxification of the same. In this instance, either the victim will have to get the non-protein thiol Intravenously or by use of supplements. It is therefore true that L- Glutathione can help the liver detox.

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Can Glutathione Taken Orally Be Effective?
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Date: December 28, 2012 04:12 PM
Author: Darrell Miller (dm@vitanet.net)
Subject: Can Glutathione Taken Orally Be Effective?

One of the main antioxidant found in the human body is glutathione. The chemical nature of it is made up of three amino acids together bound with tripeptide bonds. The many functions of glutathione in human body include gene expressions, DNA synthesis, protein synthesis, etc. It has been noted that deficiency of this chemical in human body gives rise to diseases and problems like Parkinson's diseases, AIDS, epilepsy, sepsis, Alzheimer's disease, cardiovascular troubles, trauma, Schizophrenia and many others.

The amino acid that is extracted from the protein containing food consumed by an individual helps in the formation of glutathione in the body itself. Many medical personalities might suggest the consumption of oral glutathione pills by those who have glutathione deficiency. It must however be noted that the answer to the question can glutathione taken orally be effective is a widely debated topic. Most of the recent medical tests and experiments suggest that although no forms of side effects are caused by oral consumption of this chemical as pills, but effectiveness of the medicine is not 100%.

The chemicals and organic supplements present in glutathione are not 100% absorbed by the body when it is taken orally. Without Intravenous administration, this chemical would never provide the required results in maintaining a healthy body. The glutathione, when taken down orally, is partly broken in the digestive canal, especially in the small intestines through the enzymes that are present. Hence most of the benefits of this chemical would be lost adding to the cellular toxicity of the body if consumed orally. Most doctors and medical professionals suggest that instead of taking glutathione orally as pills, one should have food that is protein rich.

Consumption of protein rich food, especially protein shakes, in turn, adds to the Intravenous glutathione production which is best suited for the body. Consuming NAC can help boost glutathione levels as well.

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What is Vitamin K Good For?
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Date: February 15, 2012 10:05 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: What is Vitamin K Good For?

Understanding Vitamin K

Vitamin K can be found in different forms, Phylloquinone is vitamin k1 and it is found in plants. Vitamin k2 is referred to as Mena Quinone and is produced by the intestinal bacteria. It can also be obtained from purified fish. The synthetic version of this mineral is called Menadione.

The role of the mineral is to aid in the blood clotting functions. When there is a deficiency, the production of prothrombin and various clotting factors is reduced. With time a person begins showing signs of hemorrhage.

The human body is incapable of synthesizing the mineral so you need to get it from dietary sources. The intestinal bacteria produce it as a metabolic by product. It is hard for someone to suffer from a deficiency since the vitamin is available from so many sources.

Vitamin K Stability

Since it is water soluble and heat stable there is no risk of leeching or inactivation during cooking. However, strong acids and alkalis have a destructive effect on the substance. Even though gamma irradiation is used to prolong the shelf life of food it inactivates the mineral.

Bile has to be present in order for the vitamin to be absorbed by the body. Lipoproteins in the bloodstream are responsible for transporting it to the liver. When it gets to the liver it is in is inactive form. A reductase is needed in order to revert it into its active state.

How Vitamin K Is Made

Normal intestinal bacteria are usually destroyed by prolonged use of antibiotics. This means that the body is unable to synthesize the mineral. The patient is put on supplements so as to prevent hemorrhagic tendencies. When a person is taking the supplements they are administered via Intravenous or Intramuscular injections. In some cases people are asked to take the supplements orally.

During the first weeks of their lives babies can suffer from hemorrhagic conditions due to a deficiency in vitamin k. in order to prevent this from happening, the infants are routinely injected with natural minerals at the time of birth depending on their weight. Medical practitioners do not use the synthetic version because it is toxic to babies.

Deficiency, Symptoms

A person suffering from a deficiency of vitamin k has certain symptoms such as excessive bleeding, less active prothrombin in their blood, their blood takes long to clot and if they are newborns they suffer from hemorrhagic episodes. There are a number of medical conditions and treatments that can cause a deficiency.

If you have a medical condition that interferes with the absorption of fats in the intestines then you could suffer from a deficiency of vitamin k. some of the conditions that lead to the problem include obstructive jaundice, ulcerative colitis, gallbladder disorders and diarrhea. When you have any one of these conditions your body is unable to absorb the vitamin.

You can also suffer from a deficiency if you use mineral oil as laxatives. The vitamin usually attaches itself to the oil droplets in your intestines instead. The body is unable to absorb it so it is excreted in the feces. People are usually discouraged from using mineral oil to cure constipation because of this reason.

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What Are Some Interesting Calcium Facts?
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Date: October 01, 2011 11:13 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: What Are Some Interesting Calcium Facts?

Do you know what contains your teeth and bones?

Have you ever wondered what makes your muscles move, your body respond to stimulus and your heart beat?

If yes, then you might need to explore some of these wonders of the body. As we know for a fact, the body is composed of thousand of cells that need substances such as nutrients for its biological processes and survival. One of these nutrients is the mineral called Calcium which is one of the main chemical substances that make those mentioned above possible.

Calcium is considered to be the most in terms of quantity among all the other minerals inside the body. It is needed for the contraction of muscles so that movement will be achievable. It also influences the constriction and dilation of blood vessels thus helping in the regulation of blood pressure. Aside from its effect on the muscles and blood vessels, calcium also affects the nerves and plays a significant role in the transmission of nerve impulses so that appropriate response to external stimulus will be possible.

Moreover, as an ion, calcium is also required in the process of Intracellular signaling and is an important chemical for hormone secretion. Physiologically, the calcium level in the blood to support these functions is only less than 1 % of the total calcium inside the body. Almost 99 % of the body’s calcium is stored in the bones and teeth for structural and functional support, as well as calcium reservoir. If the blood level of calcium decreases, the bones will be demineralized and calcium will be released into the blood stream, thus, normalizing serum calcium level.

Even if the body has reached its maximum growth, the bones will continually undertake remodeling. This process involves regular resorption and deposition of calcium minerals into the new bone. Bone remodeling varies from person to person depending on the individual’s age. Bone mineralization or formation exceeds bone demineralization during the growing years of puberty and adolescence.

On the other hand, during early and middle adulthood bone deposition and resorption are usually balanced. Furthermore, women on their post menopausal age exceed bone mineralization or formation. Their bodies constantly extract calcium from bones to compensate blood levels of calcium. This is one of the reasons why post menopausal women have a higher risk of osteoporosis. Therefore, recommended dosage for calcium is higher for women at 50 years and older and men at 70 years and older.

Another interesting fact about Calcium is that it requires Vitamin D which is also a nutrient that can be naturally produced by the body and can also be supplied by the diet. On the other hand, foods which can lessen the absorption rate of calcium are the foods which are high in oxalic acid and phytic acid. Examples of foods rich in oxalic acid are spinach, sweet potatoes and beans, while those that contains high phytic acid are wheat bran (not wheat products), seeds, nuts and soy. Caffeine, alcoholic beverages, phosphorus, sodium and proteins can decrease the absorption of calcium, thus increasing elimination through the urine, feces and sweat.

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What Are The Symptoms Of Magnesium Deficiency?
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Date: August 15, 2011 06:25 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: What Are The Symptoms Of Magnesium Deficiency?

Magnesium is a chemical element and the seventh most abundant element in the crust of the Earth and is third most being dissolved in seawater. In the human body, it is the 11th most abundant by mass. Its ions are essential and play a major role in all living things through its ability to manipulate important biological polyphosphate compounds and most familiar of which is DNA. It is important in over 350 needed biochemical reactions in the body. Digestion, energy production, the function of muscle, formation of bone, creation of new cells, activation of B vitamins, relaxation of muscles, and also aids in the proper functioning of major parts of the body like heart, kidneys, brain and nervous system.

Magnesium deficiency is a state of the body where in dietary magnesium is below acceptable levels because of poor intake and can result to numerous symptoms and diseases. Magnesium deficiency is more common than most people think. However, these can usually be remedied by an uptake of magnesium in diet or through supplementation. In sever case though, Intravenous remedies may be required. The initial symptoms of magnesium deficiency are more often than not subtle. Magnesium is stored by our body in its tissues, so pain in the muscles, cramps and some “twitches” are most commonly the first tell tale signs. Moving on down the list migraine, insomnia, or headaches are also most common of magnesium deficiency symptoms. Magnesium deficiency not only exists but is common.

Low Energy and Weakness

Magnesium has a key role in regulating how well our body processes the conversion of food into usable energy. Metabolism of carbohydrates and fats needs a number of magnesium-dependent chemical reactions. Some studies have found that during a low-magnesium phase of the body we use up more oxygen during physical activities. Our heart rates will increase by an additional 10 beats per minute. Inadequate magnesium has long been associated with a need for increased oxygen during strenuous activities and people who routinely complain of low energy should benefit from magnesium supplementation. Our muscles only can be pushed as far as its nutrition will allow, in other words if we lack magnesium to help lessen the need of oxygen all throughout our bodies then we should have an overall increase of energy and lessen the feeling of weakness since oxygen equals energy for our muscles, we need to help lessen our muscles need for oxygen to make it function more efficiently.

Weakening of the Bones

Some studies have found that Magnesium is perhaps, the most important single element to promote the health of our bones. For so long calcium was considered the foremost mineral in preventing Osteoporosis, however new research has proven that supplementing with magnesium is equally important. Magnesium comprises a percent of the human bones mineral make up. Bone mineral metabolism and matrix are both influenced by magnesium and allows are body to assimilate calcium easier. In essence it helps calcium to be absorbed by the bones more easily.

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The Benefits of GLA to Women
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Date: June 15, 2011 11:10 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: The Benefits of GLA to Women

GLA, otherwise known as gamma linolenic acid or Omega-6 fatty acid, has been found to benefit women's health in a number of ways. For example, supplements of GLA have been found to reduce many symptoms of PMS, such as irritability, depression and breast pain. The reason for this may be due to the fact that at this time the metabolism of women is less able to convert dietary linoleic acid to GLA, the normal biochemical pathway for its production.SOURCE NATURALS - Mega-GLA 300 Borage Seed Oil 30 SG

GLA is also of benefit to menopausal women, for whom it has been found to reduce the number of night flushes. GLA also helps to maintain fetal development in terms of new tissue grown and organ development, and in fact fetus development involves fairly high essential fatty acid consumption. Many women take one or two capsules of evening primrose oil Intravaginally to soften the cervix in preparation for childbirth.

However, a small number of sources state that taking GLA in the latter stages of pregnancy should be avoided, so you should seek the advice of your doctor or physician on this question.

Essential fatty acids are essential for proper hormone production in women and men.

Make sure you are getting enough essential fatty acids daily!

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How Does Taurine Help the Brain?
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Date: May 13, 2011 01:09 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: How Does Taurine Help the Brain?

Taurine is an amino acid often added to energy drinks. There have been several theories on how taurine affects brain chemicals and improve cognitive function. For many years, it has been compared to caffeine due to its effects on the human brain that appear to enhance mood. Its exact mechanisms of action remain a mystery to the scientific community, but recent studies are believed to be closing in.

It has long been known that taurine crosses the blood brain barrier, allowing it to exert some effects on several neurotransmitters found in the central nervous system. It has been tied to the alleviation of many mental illnesses, such as epilepsy, post traumatic stress disorder, clinical depression, bipolar disorder, and anxiety, making it the subject of a number of studies in the past few years.

Rebalances Brain Chemicals

It has been postulated that taurine influences the activities of neurotransmitters in the brain, but only recently has brain scientists been able to actually track its activities in the brain. A team of researchers at Cornell University managed to find a site for the neurological activity of taurine, with initial results pointing to its relationship with gamma the neurotransmitter aminobutyric acid, or GABA. The researchers do not discount the possibility that taurine may even have a receptor of its own.

Whether taurine interacts with brain chemicals is no longer debatable as it creates homeostasis in the central nervous system. It acts on receptors that the researchers discovered to be the same receptors present in GABAergic mechanisms. That being said, scientists remain inconclusive as to how its interaction with GABA receptors provides energy-boosting benefits as it is marketed in the food and drug industries.

Prevents Neuron Damage

The scientific community is convinced that taurine has neuroprotective properties. High levels of taurine in the brain have been observed to protect brain tissues from cerebral ischemia. Taurine has been linked to many metabolic pathways that are known to promote neurological health, such as the activation of glycine receptors and the regulation of enzymes called cysteine-dependent aspartate-directed proteases.

In addition, taurine serves as antioxidants that protect nerve cells from cellular damage brought on by oxidative stress. The presence of taurine within cells reduces damage from calcium excesses and increases mitochondrial events. For decades, supplementation of taurine has benefited sufferers of brain ischemia, epileptic seizures, panic attacks, anxiety symptoms, and even alcohol withdrawal.

Enhances Cognitive Function

Taurine has already been associated with physiological functions the hypothalamus controls, such as sleep-wake cycle and responses to fatigue. In several laboratory studies, administrations of taurine by way of Intraperitoneal injection have successfully induced social interaction in animal subjects. It is one of the amino acids that affect cognitive development, especially in children. While it is one of the most abundant amino acids in the brain, it is depleted as we age, making supplementation a good option.

Protect your brain with Taurine by taking it daily!

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Vitamin B2 Is Good for Nutrient Metabolism, Cellular Energy, And More
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Date: May 10, 2011 11:11 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Vitamin B2 Is Good for Nutrient Metabolism, Cellular Energy, And More

Vitamin B2 is an essential nutrient. As its name suggests, it belongs to the B complex group of vitamins. The monosaccharide ribose is part of its chemical composition together with the ring moiety called flavin that gives its yellow coloration. Hence, it is also known by the name riboflavin. Inside the human body, it plays a central role in the synthesis of flavoproteins, which are involved in many chemical reactions, especially in the metabolism of other micronutrients and bioactive molecules.

Deficiency in riboflavin is quite common as it is routinely excreted through the urine. Common symptoms include sore throat, seborrheic dermatitis, lower blood count, all of which have been tied to higher incidence of esophageal cancer. Chronic ariboflavinosis, the medical condition caused by vitamin B2 deficiency, has been reported to contribute to carcinogenesis. The good news is that it can be easily reversed with regular intake of foods rich in riboflavin or supplementation.

Aids Nutrient Metabolism

It is not a coincidence that vitamin B2 deficiency is often accompanied by deficiencies in other vitamins and minerals. In some cases, deficiencies may be attributed to impaired liver function or intestinal absorption. That being said, low levels of riboflavin do impact the metabolism of other vitamins, such as vitamin A, vitamin B3, vitamin B6, and vitamin B9, among other water-soluble micronutrients.

Metabolites of riboflavin are required in the conversion of these vitamins to their active forms, for example, from vitamin A to retinoic acid, vitamin B6 to pyridoxic acid, vitamin B9 to folic acid. Furthermore, the metabolism of bioactive compounds, including fats, proteins, and carbohydrates, also necessitates the presence of this vitamin, the reason why it greatly impacts growth and development in children.

Increases Cellular Energy

In addition to its physiological potential in intermediary metabolism, vitamin B2 is also present in the generation of adenosine triphosphate, the primary transport of energy that powers Intracellular activities. Adenosine triphosphate is synthesized in three different metabolic pathways, and one process called oxidative phosphorylation necessitates the involvement of flavin adenine dinucleotide, one of the active forms of riboflavin.

Vitamin B2 is an important cofactor in all chemical reactions that result in an increase or decrease of oxidation state. These reactions are collectively called oxidation-reduction, or simply redox. Metabolites of riboflavin are reliable oxidizing agents capable of carrying high-energy electrons needed for oxidative phosphorylation. They also participate in beta oxidation, another metabolic pathway that yields cellular energy.

Scavenges Free Radicals

A nucleic acid derivative of riboflavin is an important constituent of a special class of organic compounds called flavoproteins. These proteins are found in almost all cells of the human body, and one of their functions is to protect the cells from oxidative stress brought on by free radicals. Vitamin B2 is present in the production of cellular energy and the removal of harmful by-products of energy metabolism.

Insufficient intake of vitamin B2 is deleterious to human health, inasmuch as its biological roles are quite pervasive at the molecular level. Do you get enough Vitamin B-2?

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Why Do We Need Essential Fatty Acids (EFA's) And What Source Is Best?
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Date: February 15, 2011 05:03 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Why Do We Need Essential Fatty Acids (EFA's) And What Source Is Best?

EFA's can boost Your Health

Essential fatty acids are organic compounds that the human body necessitates to support healthy functions of organs and tissues but lack the ability to synthesize. Two fatty acids make up this group: (1) alpha linolenic acid, or ALA, and (2) linoleic acid, LA. Also referred to as EFAs, they are ubiquitous at the cellular level, but known to play an active role in neuronal and vascular tissues as well as in inflammation.

Maintains Cellular Health

One of the most recent advancements in cellular science is the discovery of lipid rafts, which are a part of the bilipid layer of cell membranes specialized for trafficking of cellular molecules, such as proteins and receptors. Also, these lipid rafts have an effect on the viscosity of cell membranes, thereby influencing fluidity that governs membrane-dependent functions of cells such as cellular signaling and phagocytosis, the mechanism by which cells swallow extracellular debris including pathogenic stimuli. Due to its being less stiff and more fluid, essential fatty acids make up cell membranes.

Modulates Neuronal Activities

It has long been postulated that learning and memory is influenced by the availability of Intracellular substances known as endocannabinoids in a process called retrograde signaling. Unlike other neurotransmitters, endocannabinoids act on presynaptic cells while produced in postsynaptic cells, and by so doing enhances the signal transmission between nerve cells. Essential fatty acids are converted into endocannabinoids, which are produced on demand, and thus daily intake of EFA is a must. In addition, EFA has for years been in use as a treatment for depression and in the prevention of neurodegenerative diseases.

Regulates Inflammatory Responses

The right amounts of essential fatty acids present inside the human body significantly contribute to the inflammatory responses of the immune system. There are chemical compounds that are produced by the body only in the presence of essential fatty acids, and a number of these compounds are essential to the process of healing and other processes implicated during inflammation. This is the reason why intake of EFA is highly regarded as a therapeutic remedy for reducing inflammatory diseases such as arthritis and autoimmune illnesses.

Promotes Cardiovascular Health

There is high risk of heart attack and related cardiovascular diseases in populations with low levels of essential fatty acids. Especially for individuals who are dependent on drugs that are known to cause oxidative stress in vascular tissues, susceptibility to damages of the blood vessel linings sets the stage for the buildup of macrophages and bad cholesterol in the form of arterial plaques. These plaques contribute to the thinning of the vascular passageways characteristic of atherosclerosis.

There is a reason why alpha linolenic acid and linoleic acid are considered essential fatty acids. They are a vital component of a healthy body with well-functioning organs and tissues. Good thing we have a wide list of food sources rich in EFA, which includes the oils of hemp, soya, canola, and wheat germ. EFA is also abundant in seeds of sunflower, chia, pumpkin, and flax.

EFA's should be an essential part of everyone's diet, have you had your EFA's today?

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Glutathion, Antioxidants, And The Body
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Date: July 14, 2010 02:41 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Glutathion, Antioxidants, And The Body

Glutathione is a simple protein that consists of three amino acids. These amino acids include glutamic acid, cysteine, and glycine. Due to the chemical nature of sulphur-containing cysteine, glutathione is able to effortlessly donate electrons. This ability is the reason why it has powerful antioxidant properties. Intracellular glutathione status is a sensitive indicator of cellular health and of the cell’s ability to resist toxic challenges.

Glutathione is an important water-phase antioxidant that is an essential component in the glutathione peroxidase system. Glutathione peroxidase enzymes are crucial for detoxifying peroxides including hydrogen peroxide, which is generated within cellular membranes and lipid-dense areas of the cell, especially the mitochondrial membrane. Severe glutathione depletion often leads to cell death, while experimental glutathione depletion has been found to induce cellular apoptosis.

A cellular level of glutathione depletion seems to cause extensive damage to the mitochondria. Depletion of mitochondrial glutathione may, in fact, be the ultimate factor that determines a cell’s vulnerability to oxidative(free radical) attack. The mitochondria is the most crucial place for glutathione presence, as the cascade of oxidation-reduction reactions complete the final steps in respiration take place here. Throughout this process, which is called oxidative phophorylation, electrons invariably escape and react with the ambient oxygen in order to generate toxic free radicals. It has been estimated that 2% to 5% of the electrons that enter the mitochondria are converted into reactive oxygen species that generate considerable oxidative stress for the cell. These free radicals cause an immediate threat to other cellular components, such as the DNA, enzymes, structural proteins, and lipids.

The cumulative damage that is caused by oxygen and other free radical species is now determined to be the principal contributor to the degenerative disease process and the progressive loss of organ function that is commonly recognized as aging. Because of this, the cell is constantly challenged to destroy these free radicals before they can inflict any lasting damage. Minimizing oxidative attacks may actually be the ultimate challenge of being alive. Because of this, the reducing power of glutathione is of huge important to the cell.

Glutathione is important for helping to regenerate other antioxidants that are depleted from their constant work to fight off free radical challenges. Regeneration that is glutathione-induced may be the mechanism that is actually used by the cell in order to conserve lipid-phase antioxidants, vitamin A, vitamin E, and the carotenoids. It has been confirmed by recent investigations that dietary vitamin C can actually protect us against tissue damage that results from glutathione depletion.

Additionally, supplementation with glutathione or its precursors can also quickly replenish any vitamin C deficiencies. Because of this, glutathione and ascorbic acid, both of which are pre-eminent cellular antioxidants, are tightly linked, as glutathione can conserve vitamin C and vitamin C can conserve glutathione. When they are both present, these two antioxidants protect the entire spectrum of biomolecules that are found within the cell, as well as facilitate the cell’s best performance. It has been said that the glutathione status of a cell may be the most accurate single indicator of the health of the cell. This means that as glutathione levels go, the health of the cell will go as well.

Glutathione is available in capsule or tablet form at your local or internet health food store. Always choose name brands to ensure quality and purity of the glutathione supplement you choose to purchase for consumption.

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Natural Vitamins for the Heart
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Date: July 06, 2010 02:44 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Natural Vitamins for the Heart

It has been consistently revealed by epidemiological research that individuals with a high dietary intake of antioxidant vitamins have a risk that is lower-than-average of cardiovascular disease. This evidence seems to be especially consistent for vitamin E. Additionally, many clinical studies show that magnesium supplementation is of significant benefit in the treatment of cardiac arrhythmias and in reversing the depletion of potassium that comes along with a magnesium deficit. Many cardiovascular events like angina pectoris, congestive heart failure, and cardiomyopathy are related directly to low magnesium status. Coenzyme Q10 is an essential component in cellular energy production. This nutrient is also prevalent in the heart muscle. When tissue levels of CoQ10 are low, there is an association with several cardiovascular complications. Among these are angina, congestive heart failure, cardiomyopathy, hypertension, and mitral valve prolapse. Research has found that the trio of coenzyme Q10, vitamin E, and magnesium plays a crucial role in the maintenance of cardiac health and the prevention of disease states.

The cardio-protective effect of vitamin E seems to come from its ability to bind to LDL cholesterol, which protects it from free-radical induce oxidative damage along with the consequent buildup of atherogenic plaque. Low levels of vitamin E in the blood are a predictive factor of heart health almost 70% of the time.

Studies on the general population have suggested that there is a link between the intake of calcium and blood pressure. Although results of the studies have not been consistent, there are several studies showing that calcium supplementation can lower blood pressure in those individuals who experience hypertension. Overall, those intakes of calcium that are sub-optimal contribute directly to hypertension. It seems that dietary calcium reduces blood pressure by normalizing Intracellular calcium levels.

Supplementation with magnesium is of benefit for the treatment of cardiac arrhythmias and the prevention of potassium depletion. Both magnesium and potassium play an important role in the functioning of the heart. Several studies have found that there is improvement in heart function in those patients that have cardiomyopathies when they supplement with magnesium. Since magnesium acts in so many ways to enhance cardiac function and optimize cellular metabolism, magnesium is widely recognized as a critical nutrient for general cardiac support.

Several double-blind studies have taken place in those patients that experience various cardiomyopathies in order to show the benefits of CoQ10 supplementation. One study reported an 89% improvement rate in 80 cardiomyopathy patients who were treated with CoQ10. The coenzyme also appears to moderate blood pressure through the usual mechanism, as it lowers cholesterol levels and also stabilizes the vascular system with its antioxidant properties. Because of this, it is able to reduce vascular resistance. Several studies on CoQ10 supplementation have confirmed that this nutrient posses the ability lower both systolic and diastolic pressures by up to ten percent.

There are other nutrients that play important roles in optimizing cardiovascular health and reducing hypertension. Among these nutrients are gamma tocopherol, calcium, magnesium, l-carnitine, acetyl-l-carnitine, procyanidolic oligomers, phenolic compounds, and lycopene. As you can see there are many natural supplements that can help the cardiovascular system. Remember to always consult your doctor before adding supplements to your diet while on prescription drugs. Look to your local or internet health food store for quality vitamins, herbs, and specialty formulas to boost your health and wellness.

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NADH 10 mg And 20 mg Enhanced with Bioenergy RIBOSE
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Date: December 10, 2009 04:23 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: NADH 10 mg And 20 mg Enhanced with Bioenergy RIBOSE

NADH 10 mg And 20 mg Enhanced with Bioenergy RIBOSE™

NADH is the biologically-active form of vitamin B-3 (niacin), and is involved in a wide range of functions throughout the body. An easier way to understand it, is to think of NADH as a biological spark plug that makes it possible for us to become and remain energetic, active, and functioning at our best. Remove the “spark” and some of the most basic human functions will inevitably suffer. This is not speculation. It is the result of decades of scientific investigation that has examined the link between nutrition and chronic conditions; notably those related to cellular life cycles and apoptosis, excessive fatigue, enzyme decline, free radical expansion, cognitive disparity, Intracellular balance, normalized aging, and many more important aspects of human health.*

Based on a wealth of ongoing studies, we have a great understanding of the benefits of NADH. Not only is it an effective source of cellular energy, it is also one the body’s versatile electron donors—the molecule most frequently degraded during oxidation. Because of these characteristics NADH is, however, also very unstable with regard to light and oxygen, which leads to a very rapid loss of overall effectiveness. Additionally, poor lifestyle choices, such as the use of tobacco, excessive consumption of alcohol, drugs, and prescription medications, sleep deprivation, genetically-engineered foods, and a host of others can all inhibit the activity of NADH within the body. Hope is not lost, however.

NOW® NADH contains a patented form of NADH from Panmol® - the first natural stabilized, stomach acidresistant form of this unique vitamin B3 supplement. Panmol® uses a patented process to naturally preserve its effectiveness. The end result is a highly stable, and bioavailable NADH which can easily withstand the harsh, acidic environment of the stomach and digestive tract; a breakthrough in the battle against many of todays’ most chronic conditions. NOW® NADH is available in both 10 and 20 mg potencies. Both varieties have been further enhanced with 200 mg of Bioenergy RIBOSE™ to support its cellular energy support properties.*

Who Stands to Benefit from NADH

With a proper supply of amino acids and/or B3 vitamins (niacin) the human body is, in fact, capable of producing a limited reserve of NADH. Under chronic strain however, the body’s need for NADH increases. As we age, the body’s ability to manufacture NADH becomes increasingly limited. With this in mind, the following groups stand to benefit the most from incorporating NOW® NADH into their supplement regimen.

• Those who work in stressful, cognitively-demanding professions
• Individuals who frequently struggle with fatigue
• People who have difficultly focusing on routine tasks
• Older and elderly individuals
• Those who want to maintain a high level of mental alertness
• Professionals who travel extensively for business
• Those who experience jet-lag after long flights

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Protect The Liver with Glutathione And Cysteine
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Date: April 23, 2009 01:54 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Protect The Liver with Glutathione And Cysteine

The tripeptide L-glutathione is synthesized in the body from L. glutamic acid, L-cysteine and glycine, a reaction that can occur in any cell of the body although it is essential that it also occurs in the liver. Should glutathione concentrations drop, they can be increased by supplementing with cysteine or any other of the three amino acids that are used in the biosynthesis of this important if substance

The tripeptide exists in two forms: the reduced form (GSH) which contains a sulfhydryl (SH) functional group attached to the cysteinyl part of the molecule, and the oxidized form glutathione disulfide (GSSG). As electrons are lost from the reduced form, two molecules combine to create a dimer formed by a disulfide bridge, the process which can be reversed through reduction of the GSSG. Such electrons are lost during its reaction with free radicals, in which the free radicals are neutralized by the donation of an electron from the oxidized version of glutathione.

The definition of a free radical is a molecule that is lacking one electron from an electronic pair. Its prime purpose is then to steal an electron from the nearest molecule to it. In doing so, it can not only destroy that molecule, but also destroy body cells and lead, not only to premature aging, but also to some potentially fatal conditions.

It is an unusual peptide in that it involves a link between the cysteine amino grouping and the carboxyl functional group of the glutamic acid. It is a powerful antioxidant, acting as an effective free radical scavenger and protecting the body cells from the effects of free radical oxidation. However, it is on its detoxification effect in the liver that we shall focus here prior to discussing some other uses to which the body puts glutathione in its two manifestations.

Much of the detoxification is connected with the thiol group in the molecule. Take mercury for example. The thiol grouping forms a strong Hg-sulfydryl chemical bond within the liver, in the form of a glutathione-mercury chelate. In this form mercury is unable to exert any toxic effect on the body and can be excreted in the normal manner. The same reactive pathway is followed by other heavy metals that can bond to thiol groupings. In this way L-glutathione can protect the liver from the effects of a number of toxic heavy metals such as cadmium and chromium.

This is an important property of the amino acid, particularly in industrial and urban environments where the population is more prone to exposure to heavy metals than their rural counterparts. However, the end result on the glutathione is that it is removed from the body, and, particularly with city dwellers, a supplement may be required to maintain a healthy concentration of this amino acid in the body and in particular in the liver. Therefore, although L-glutathione is not considered an essential amino acid, in that it is biosynthesized within the body, a supplement is sometimes required, particularly by those who live in large cities.

It is important to consider the form in which the glutathione supplement is administered. This is because of the presence of gamma-glutamyltranspeptidase within the digestive system. This enzyme appears to destroy L-glutathione before it can be absorbed in the intestine so normal oral forms of supplementation are likely to be ineffective. Possible forms of effective administration include buccal (between the cheek and teeth) and hypodermically.

An alternative means of supplementation is to take substances such as selenium, methionine, alpha-lipoic acid, vitamin C and glutamine that stimulate the biosynthesis of glutathione. Also, since the substance utilizes the raw materials of L-cysteine, glutamic acid and glycine in its Intracellular production, supplementation with these amino acids should also help to produce L-glutathione.

That said, let's return to its antioxidant properties and its effect on the liver that contains the largest stocks of glutathione in the body. It is generally regarded as the most important antioxidant in the body. It protects cellular cytoplasm from oxidation by reducing disulfide groups and maintaining a highly reducing environment within the cytoplasm. It reacts with hydrogen peroxide and other oxidative agents, and is converted to the oxidized form GSSG. It is then reduced back to GSH through the combination of the reducing agent and an enzyme. The reducing agent is nicotinamide adenine dinucleotide phosphate (NADPH), the enzyme being glutathione reductase.

The implications that this strong reducing effect has on the liver are significant. Reduced GSH L-glutathione levels have been found in patients suffering from HIV, hepatitis C and other liver diseases. Supplementation with GSH has been found to restore normal levels of glutathione to the liver, and it has been demonstrated that the treatment has improved such conditions significantly.

Atherosclerosis is a condition of the arteries caused by the deposition of plaques formed from oxidized low-density lipoproteins, otherwise known as bad cholesterol. The strong antioxidant effect of GSH prevents this from LDLs from being oxidized and deposited on the arterial wall. There are other results of glutathione supplementation that indicate the effectiveness of antioxidants in the treatment of serious liver conditions, and there are no doubts that combating the effects of free radicals and oxidizing agents within the liver has a positive effect on many potentially serious liver diseases.

Many of these are exacerbated by the generation of free radicals by relatively modern pollution sources such as pesticides, petrol and diesel emissions, tobacco fumes and various other chemical emissions. A strong antioxidant such as L-glutathione cannot be anything other than an effective means of reducing the biological effect of these oxidants. It protects not only the liver but also the lungs and cardiovascular system.

For all these reasons a supplement consisting of L-glutathione or its constituent parts, glutamic acid, cysteine and glycine, provide significant protection against the stresses and strains of modern living. Increased pollution levels and heightened oxidative stress levels within the body are playing havoc with our body defenses, and GSH is an important one of them that can easily be enhanced by supplementation. There are no known reactions to L-glutathione supplementation, but pregnant women and babies should receive expert medical advice prior to taking it.

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Thrombophlebitis
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Date: April 15, 2009 01:20 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Thrombophlebitis

Thrombophlebitis is when inflammation occurs in the veins due to the formation of a blood clot in that vein. This problem usually occurs in the extremities, especially the legs. Thrombophlebitis can be considered superficial if it affects the subsutaneous vein, which is one of the veins near the skin’s surface.

In superficial thrombophlebitis, the affected vein can be felt and may be seen as a reddish line under the skin. Additionally, swelling, pain, and tenderness to touch can occur. If widespread vein involvement is included, the lymphatic vessels may become inflamed. Superficial thrombophlebitis is a relatively common disorder that can be brought about by trauma infection, standing for long periods of time, lack of exercise, and Intravenous drug use. The risk of superficial thrombophlebitis can be increased by pregnancy, varicose veins, obesity, and smoking. Thrombophlebitis can also be associated with environmental sensitivities to allergies. This condition is usually diagnosed according to physical findings and a medical history that indicates an increased risk.

Deep thrombophlebitis (DVT) affects the Intramuscular veins farther below the skin’s surface. DVT is a much more serious condition than superficial thrombophlebitis because the veins affected are larger and located deep within the musculature of the leg. These veins are responsible for the transport of 90 percent of the blood that flows back to the heart from the legs. Symptoms of DVT may include pain, warmth, swelling, and bluish discoloration of the skin of the affected limb. These symptoms are often accompanied by fever and chills. The pain is typically felt as a deep soreness that is worse when standing or walking and gets better with rest, especially with elevation of the leg. The veins directly under the skin may become dilated and more visible. Inflammation situated in a vein in the pelvis is referred to as pelvic vein thrombophlebitis.

The reason or reasons for the formation of the clots in the veins are often unknown. However, in most cases, clots are probably the result of a minor injury to the inside lining of a blood vessel. If the vessel lining receives a microscopic tear, clotting is initiated. Platelets clump together to protect the injured area, and a series of biochemical events is initiated that results in the transformation of fibrinogen, a circulating blood protein, into strands of insoluble fibrin, which are deposited to form a net that traps blood cells, plasma, and yet more platelets. This results in a blood clot. Other possible causes of the formation of DVT include abnormal clotting tendencies; poor circulation; certain types of cancer; and Behcet’s syndrome, which is a condition that affects small blood vessels that predispose an individual to the formation of clots. The following factors increase the risk of DVT: recent childbirth, surgery, trauma, the use of birth control pills; and prolonged bed rest.

The following nutrients are recommended for the prevention and treatment of thrombophlebitis: acetyl-l-carnitine, coenzyme Q10, flaxseed oil, garlic, l-cysteine, lecithin granules, l-histidine, magnesium, MSM, Pycnogenol, vitamin C with bioflavonoids, vitamin E, zinc, and vitamin B complex. Additionally, the following herbs may be beneficial: alfalfa, pau d’arco, red raspberry, rosemary, yarrow, butcher’s broom, cayenne, ginger, plantain, witch hazel, skullcap, valerian root, ginkgo biloba, goldenseal, hawthorn, and olive leaf extract.

Natural vitamins are a great way to help prevent conditions such as these. If you suspect that you have thrombophlebitis, consult your doctor before trying to take the problem into your own hands. Natural vitamins such as the ones listed above can be found at your local or internet health food store.

*Statements contained herein have not been evaluated by the Food and Drug Administration. Natural vitamins and herbs are not intended to diagnose, treat and cure or prevent disease. Always consult with your professional health care provider before changing any medication or adding Vitamins to medications.

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Glaucoma (loose your eye sight)
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Date: February 16, 2009 01:18 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Glaucoma (loose your eye sight)

Glaucoma is a group of diseases that affect the optic nerve and can lead to irreversible vision loss. It is usually associated with elevated fluid pressure within the eye. All forms of glaucoma can cause damage to the optic nerve and lead to vision loss, even blindness, if left untreated. About 2.2 million Americans have been diagnosed with glaucoma and as many as 2 million more could have it and not yet know. It is one of the lading causes of blindness and is expected to become more prevalent in years to come due to the growing population of older adults.

Those people who are at greatest risk for developing glaucoma are people over the age of sixty, people of African ancestry, and people with diabetes, high blood pressure, severe myopia, or a family history of glaucoma. Smokers also have an elevated risk, as do those who have sustained eye injuries or who have used steroids for an extended period of time.

About 3 percent of Americans are believed to have open-angle glaucoma, which is the most common form of this disease. Because this disorder causes no symptoms until it is quite advanced, only about half of those who have it are actually aware of it. In open-angle glaucoma, there is no physical blockage and the structure of the eye appear to be normal. However, the drainage of fluid is inadequate to keep the Intraocular pressure at a normal level.

The most pronounced symptoms of open-angle glaucoma are the gradual loss or darkening of peripheral vision and a marked decrease in night vision or the ability of the eye to adjust to darkness. Other possible symptoms include chronic low-grade headaches, the need for frequent changes in eyeglass prescription, and/or seeing halos around electric lights.

A far less common, yet more serious, form of glaucoma is closed-angle glaucoma. Closed-angle glaucoma is much more dangerous than open-angle forms because it almost never manifests any symptoms until very late in the condition. By that time, vision may be irreversibly damaged.

Glaucoma probably has many causes, with many scientists believing it may be closely linked to stress and nutritional problems or disorders like diabetes and high blood pressure. Some think that excessive amounts of glutamic acid, which is a nonessential amino acid, may be involved. Glaucoma has also been linked to deficiency in nitric oxide, which is a molecule that is critical for healthy blood vessels. Problems with collagen, the most abundant protein in the human body, have been linked to glaucoma as well. Collagen increases the strength and elasticity of tissues in the body, especially those of the eye. Collagen and tissue abnormalities at the back of the eye contribute to the clogging of the tissues through which the Intraocular fluid normally drains. This results in elevated inner eye pressure, leading to glaucoma and related vision loss.

The following nutrients are considered to be very important when dealing with and preventing glaucoma: choline, essential fatty acids, glutathione, rutin, vitamin A, vitamin B complex, vitamin C with bioflavonoids, vitamin E, alpha-lipoic acid, magnesium, a multivitamin and mineral complex, and zinc. Additionally, the following herbs are helpful: bilberry, chickweed, eyebright, coleus forskohli, fennel tea, chamomile, ginkgo biloba, zinc sulfate, jaborandi, and rose hips.

To resolve issues with the eyes, one must change their diet, exercise, and take supplements and herbs like what are listed above. Medical doctors are at a loss as to how glaucoma happens but they can help stop the progression of this disease if detected early on. Always consult your doctor before adding vitamins and herbs to your diet, vitamins and herbs are available at your local or internet health food store.

*Statements contained herein have not been evaluated by the Food and Drug Administration. Vitamins and herbs are not intended to diagnose, treat and cure or prevent disease. Always consult with your professional health care provider before changing any medication or adding Vitamins to medications.



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EDTA
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Date: January 03, 2009 12:27 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: EDTA

Calcium is the most damaging mineral that is involved in the calcification of the blood vessel system. Ionic calcium, which is a floating form of calcium, is used by the body in daily functions like muscle contraction and relaxation, nerve impulse transmission, blood coagulation, and others. Calcium is a mineral that is capable of forming complexes with other components, such as proteins. These complexes can eventually lead to the formation of lesions, plaque, and the overall hardening of the blood vessels.

There are four different components that are found mainly in arterial walls which often combine with calcium. Elastin, a type of protein that makes up a good amount of the blood vessel wall, is the substance that allows the arterial wall to be elastic. During the process leading to atherosclerosis, elastin often forms complexes with ionic calcium, which results in a loss of elasticity.

Collagen, another type of protein that works with elastin to make up the bulk of arterial walls, forms complexes with ionic calcium, which leads to hardening of the blood vessel. MPCs, which are carbohydrates that contain a number of agents including amino acids, uronic acids, and chondroitin sulfate, are found within the arterial wall where they form complexics with ionic calcium to promote the formation of atherosclerosis. Beta lipoproteins and pre-beta lipoproteins transport a fatty acid and glycerol combination for storage in the liver, muscles, and other areas of the body.

Although beta and pre-beta lipoproteins form ionic calcium complexes and initiate the onset of arteriosclerosis, there are lipoproteins that do not form complexes with calcium, but interferes with the formation of ionic calcium complexes instead. It is clear that ionic calcium plays a huge role in the formation of arterial plaque and the actual hardening of arteries, due to the complexes it forms with components of the arterial wall. Because EDTA effectively ties up calcium complexes so that it can be eliminated through the urine, it is also clear why EDTA chelation therapy is a successful way to reduce the levels of atherosclerotic plaque and reverse the hardened condition that so often occurs in the artery walls.

EDTA chelation therapy was patented in Germany in 1930 and first used in medicine in 1941 to help with lead poisoning. It wasn’t patented in the United States until 1949, with several papers being published on its therapeutic effects following in the early 1950s. EDTA chelation therapy has been used in the U.S. to treat atherosclerosis since 1952, but was also used for lead poisoning and heavy metal toxicity before that. After its initial use for lead and heavy metal poising, it was noted that EDTA resulted in the reduction of severe pressure and pain in and around the chest, which led to the discovery of its abilities to treat atherosclerosis.

Since then, thousands of scientific articles have been written concerning the many aspects of EDTA chelation therapies as well as its safety, which has been proven by its use on thousands of patients in over three million Intravenous treatments by over one thousand doctors in the last fifty years. Not one fatality has been documented when established protocol has been followed, while the FDA approved the new drug application for EDTA without requiring any additional safety studies to determine its safe use. Have you tried oral EDTA?



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Potassium And Magnesium
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Date: December 30, 2008 01:08 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Potassium And Magnesium

Potassium and magnesium are the two most common minerals found within the cells of your body. They each have specific individual functions within your body, and together help to maintain the correct balance of electrolytes and the proper functioning of smooth and striated muscles. That includes allowing muscles to relax properly rather than to cramp.

Before discussing this, let's have a look at the major individual properties of these two metallic minerals with respect to the body's biochemistry.

Magnesium is needed to ensure the proper functioning of the sodium/potassium pump. This is a complex topic, and we shan't dwell on it at length here, although the basics are that it is responsible for the movement of ions into and out of cells. Sodium and potassium ions are moved in opposite directions across the cell plasma membrane, three sodium ions being pumped out for every two potassium ions pumped into the cell.

This is of particular importance to nervous cells responsible for transmitting impulses in response to specific stimuli. In the event of a magnesium deficiency, this pumping action is impaired and the sodium/potassium balance within and without the body cells are imbalanced. This in turn impairs the response of nerve cells to stimuli. Both magnesium and potassium can be depleted through the use of diuretics, in which case a magnesium supplement can redress the imbalance.

There are several consequences of such an electrolytic imbalance, some having potentially serious consequences. Many can cause death if left untreated, although the symptoms usually allow appropriate medical treatment prior to the condition becoming fatal, such treatment frequently involving administration of magnesium and potassium. Among these are:

Calcium overload in certain heart cells that reduces the effective use of oxygen and ATP and causes overactive contraction of the heart muscle.

Spasms in coronary blood vessels.

Over-activity of the striated muscle fibers, leading to cramps in the calf and thigh muscles, for example.

Cramp and pain in the smooth muscles of hollow organs such as the bladder or uterus that can also cause premature labor.

Several heart problems caused by an increase in energy consumption and a calcium overload and potassium deficiency that leads to cardiac ischemia and arrhythmia that continue to create a serious medical condition and hazard to life. Potassium, that can stop the heart if given in excess, can be just as harmful if present in too small a concentration.

The whole situation creates a self-perpetuating cycle that can be broken by a magnesium and potassium supplement that restores the correct gradient of potassium and magnesium across the cell membrane, improves the function of the sodium/potassium pump and reduces the excess cellular calcium by replacing it with magnesium.

This only works if both potassium and magnesium are taken together: just either alone is no good. It also takes time for the effect to occur, so the supplement is not suitable for emergency use. A regular supply can prevent the condition occurring.

There are many other properties that magnesium and potassium possess with regard to the body's biochemistry such as the effect of magnesium in activating certain enzymes. However, in discussing relaxation, both of these essential minerals have a significant part to play.

It has been mentioned that a magnesium and calcium deficiency causes spasms and cramps in the smooth and striated muscles, and the corollary is also true. Magnesium and potassium can be used to relieve such cramps, and relax muscle tissue. Hence, because it can relax excited smooth bronchial muscle tissue, magnesium can be used to relieve asthma attacks. The Intravenous administration of magnesium is, in fact, an accepted and proven clinical treatment for acute asthma attacks.

In the same way, magnesium has been used to treat muscle spasms and cramps. Again, it is not an immediate treatment for emergency use, but can be used over a period of days to treat athletes with a history of muscle spasms. Such spasm frequently occur after prolonged periods of exercise, when magnesium and potassium, among other electrolytes, can be lost through a combination of sweating and urination.

However, this is not the only means by which magnesium is lost from your body cells, and probably not even the main one. Less obvious, but likely of more importance, is the transfer of magnesium from the plasma into the red blood cells (erythrocytes). The amount by which this occurs is directly proportional to the more anaerobic the exercise, hence the need by athletes and weightlifters for more magnesium. It can be rapidly lost through exercise with insufficient oxygen, and cause their muscles to cramp up.

Magnesium deficiency is common in Americans, although factors such as high calcium intake, alcohol intake, diuretics, and kidney and liver disease are more responsible for this than a dietary deficiency. Potassium is readily available in bananas, brown rice, potatoes, tomatoes and oranges and dietary deficiencies are not common although supplements are readily available.

Magnesium is also known to play an important part in the secretion and use of insulin by the body. Supplementation with magnesium can help diabetics to make best use of insulin, become more tolerant to glucose and improve the fluidity of the membrane of red blood cells. The mineral; also has a small but definite effect in lowering blood pressure. Other uses for magnesium supplements include congenital heart failure, where higher magnesium contents lead to greater life expectancy and chronic fatigue syndrome (CFS) where magnesium supplements can significantly increase energy levels.

Other uses to which your body puts potassium other than to allow proper muscle contraction and relaxation and to maintain the balance of electrolytes in the body, includes the function of brain and nerve neurons. This, however, is academic since should your potassium levels drop by 50%, death would result.

Potassium, Magnesium and Calcium are essential in maintaining the proper workings of your body cells, although the most visible effect of magnesium and potassium is their relaxation properties on the body, put to specific use by sportsmen and women, particularly those involved in the more anaerobic sports.

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Inositol And Choline
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Date: December 11, 2008 12:19 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Inositol And Choline

Inositol is a member of the vitamin B complex family, being referred to as vitamin B8, but is not strictly a vitamin because it is biosynthesized in your body. Vitamins are essential substances that are not manufactured by your natural biochemistry, and must be taken in your diet. However, to all intents and purposes it works like a member of the vitamin B family.

The main function of myo-inositol (the commonest isomer of inositol) is in the health of cell membranes, particularly those that comprise the marrow, eyes, intestines and the brain. Without proper regulation of the cell membrane, the cell cannot function effectively. Some of its effects include healthy hair and controlling estrogen levels. It is also believed to help to reduce cholesterol levels in the blood.

A deficiency will result in hair loss, eczema, increased blood cholesterol levels and eye abnormalities. You might also suffer constipation, although this is not as serious a condition as those preceding. It is present at highest levels in the heart and brain, which indicates where it is mostly used, although it also helps the liver to break down fats and enables the nerves and muscles to operate as they should.

Those that are depressed are frequently found to have low inositol levels in their spinal fluid, so it is believed to play a part in that condition. It is known that the substance takes part in the function of the neurotransmitter serotonin, which is known to play a part in depression, and initial signs are that its use in the treatment of depression could be effective. Neurotransmitters are responsible for passing messages across the gap (synapses) between nerve cells, their messages being decoded by the neuroreceptors. A healthy nervous system depends on healthy neurotransmitters.

For these reasons, inositol has also been tried on other conditions of the nervous system. These include bipolar disorder, bulimia, panic disorder, obsessive compulsive disorder and attention deficit disorder. So far, results have been inconclusive as to its effectiveness, but it is early days yet and field tests are continuing.

A test carried out in Beersheva, Israel, in 1997, found that treatment with inositol produced significant improvement in the depression of 28 patients after four weeks on the Hamilton Depression Scale1, and 21 patients tested with panic disorder (with and without agoraphobia) showed significant improvements in their condition, including agoraphobia. Results on 13 patients with obsessive compulsive disorder also showed significant improvement. These were all double-blind tests.

However, not all tests have been so conclusive, and a study on 42 people with sever depression who did not respond to conventional antidepressant, also failed to respond when inositol was added to their medication.2 Results are therefore not conclusive.

Four hundred people took part in a double-blind test that indicated a possible improvement in the symptoms of polycystic ovary syndrome when treated with inositol 3,4 and another that inositol treatment on patients taking lithium could help reduce the symptoms of psoriasis, a skin condition believed to be caused by a reaction of the immune system and nerves.5

The supplement has also been found to be just as effective as Luvox (fluvoxamine – similar to Prozac) after four weeks treatment. Although these results are good, they are inconclusive, and more data is need before any indisputable conclusions can be drawn. However, treatment with inositol might be worth considering if conventional treatment for these conditions has been unsuccessful.

The most common natural form of inositol is myo-inositol, an isomer of cyclohehexanehexol, a carbocyclic polyol that form the structural basis for secondary messengers in the cells of eukaryotes.

A secondary messenger system is one whereby a signaling molecule is released in response to a signal from a primary messenger such as a neuroreceptor, which then activates certain Intracellular proteins known as effector proteins that exert a response from the cell. An example is cAMP (cyclic adenosine monophosphate) that is a secondary messenger that activates protein kinases and allows them to phosphorylated proteins.

Eukaryotes are organisms that contain cells composed of complex components contained within a cellular membrane, and that also contain a nucleus. Examples are fungi, plants and all animals. Examples of non eukaryotes include the bacteria family.

It is frequently recommended that inositol is most effective when taken with an equal amount of choline, although this might be due to the fact that when inositol deficiency is detected, choline is also frequently deficient. Both are vitamin B family like, and both are lipotropic, in that they aid the breakdown of fats in the body. It is not clear whether this is true or not, but taking both would certainly not harm you, and might be of great benefit.

Inositol is not essential, because it can be obtained from beans, nuts, seeds, whole grains, cantaloupe, brewer’s yeast, liver and vegetables. Bacteria in the gut also act on the phytic acid (inositol hexaphosphate) contained in citrus fruits to form inositol.

However, be careful if you drink a lot of coffee. It destroys inositol, and if you are taking the supplement medicinally, steer clear of coffee during your period of treatment because it will lose its effect. Excessive coffee drinking can also result in a general depletion of inositol from your diet, and hence a deficiency. In such a case you are advised to take a supplement, preferably along with choline that might also be deficient.

Although there have been no adverse side effects reported, no specific longer term safety studies have been carried out on inositol. Because of the way it works, inositol should be avoided by people with liver or kidney disease, and also by expectant or nursing women. It should be avoided by young children until safety tests have been carried out, and it is believed that it can cause manic effects in those suffering bipolar disorder.

Other than for these specific cases, trials with many times the average daily intake of the substance, it currently appears safe to take inositol as a long-term supplement. However, as with all such supplements intended for specific disorders, you should seek the advice of your physician.

References: 1. Levine J: Ministry of Health Mental Health Center, Faculty of Health Sciences, Ben Gurion University of the Negev,Beersheva, Israel ur Neuropsychopharmacol, 1997 May, 7:2, 147-55

2. Nemets B, Mishory A, Levine J, et al. Inositol addition does not improve depression in SSRI treatment failures. J Neural Transm. 1999;106:795-798.

3. Gerli S, Mignosa M, Di Renzo GC. Effects of inositol on ovarian function and metabolic factors in women with PCOS: a randomized double blind placebo-controlled trial. Eur Rev Med Pharmacol Sci. 2003;7:151-9.

4. Gerli S, Papaleo E, Ferrari A, et al. Randomized, double-blind, placebo-controlled trial: effects of myo-inositol on ovarian function and metabolic factors in women with PCOS. Eur Rev Med Pharmacol Sci. 2007;11:347-354.

5. Allan SJ, Kavanagh GM, Herd RM, et al. The effect of inositol supplements on the psoriasis of patients taking lithium: arandomized, placebo-controlled trial. Br J Dermatol. 2004;150:966-969.

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D-Ribose
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Date: May 17, 2008 10:07 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: D-Ribose

Discovered by Phoebus Levene in 1905, D-ribose is a monosaccharide, and is a component of RNA that is needed for genetic transcription. It is a stereoisomer of ribose, and although not regarded as an essential nutrient since it is synthesized in the body, it is essential for life. It also takes part in human metabolism, helping to generate energy from food, and is a component of all living cells – animal or vegetable. It is contained in ATP and NADH and we could not live without it.

Because it is contained in all living organisms, D-ribose is a common component of the human diet, and required as a supplement only for specific needs. It for this reason that the human species developed and survived: the chemicals needed for life are either commonly found in nature or are manufactured by the body itself from other raw materials which themselves are common in our diet. The other stereoisomer is L-ribose, and this plays no part in human metabolism.

Energy is needed not only to enable us to walk and to run, but also to drive every part of human physiological activity, and all of the physical and chemical processes of life. Because of its nature energy cannot travel round the body in our bloodstream as if were a chemical entity, but must be released or generated where and when it is needed. For that reason every cell in our body contains an area called the mitochondria in which energy is generated. The molecule of energy, if there is such a thing, is called ATP, or adenosine triphosphate.

ATP controls the production of energy everywhere in the body, and allows muscles to contract and relax. This muscular activity is responsible for all movement, including the circulation of our blood through heart contractions, the diaphragm movement that creates the vacuum that allows us to breathe, and the operation of the digestive system by means of the peristaltic motion of the esophagus and the intestines. Each of the two ways in which ATP is generated involves D-ribose.

One is by means of D-ribose being used to produce new ATP, and the other is the recycling of used ATP. In the latter, D-ribose and ATP react to form ADP (adenosine diphosphate and D-ribose-5-phosphate with the release of energy. This diphosphate then reacts again with the ADP to produce new ATP and D-ribose. The reaction is catalyzed by an enzyme known as a ribokinase, a phosphotransferase that specifically catalyzes reactions involving phosphorus groups with an alcohol receptor group.

The heart muscle is operated by means of the calcium pump that depends upon both calcium and ATP for its operation. When ADP and phosphate are created by the effect of calcium and ATP coming together, then energy is provided to the muscle fibers of the heart. ADP then reacts with the phosphate and D-ribose in the presence of magnesium to reform the ATP. ATP is therefore essential for the continuation of the pumping action of the heart that maintains life in all mammals.

D-ribose is also part of the base of RNA and DNA, without which there could be no life. Because the cardiac muscle is easily depleted of ATP, the presence of D-ribose is of extreme importance and it has been proved that cardiac failure begins with the reduction in energy levels of the heart muscle that can be brought about by a lack of ATP in the muscle cells.

An important property of D-ribose is that it is unchanged by the liver, which is the chemical plant of your body in which a large part of the biochemistry needed for life takes place. This means that D-ribose can be taken in the diet and pass through the liver virtually unchanged, and then be transported in the bloodstream to where it is needed for the maintenance of ATP levels. That is why D-ribose is frequently given to treat heart attacks: because it can rapidly replace lost ATP and enable the calcium pump to get to work and keep the heart beating at its normal strength. Maintenance levels of this important sugar would not go amiss.

However, there are other uses to which the body can put this marvelous substance. Among these is the body’s ability to form Coenzyme A from it. This coenzyme is needed in the body for the breakdown of fatty acids, and many other chemical reactions, and also provides the raw material for many other necessary substances in human biochemistry.

Patients with low energy levels can frequently fail to be able to recover from illness. This is because that when illness stresses your body, your mitochondria become overwhelmed with work and begin to fail to produce sufficient ATP to keep the body going. Naturally, as your energy level drops, and your body cells are unable to respond to this, then the condition you are suffering from gets worse, and become stronger leading ultimately to possible death. Your immune system is put under a great deal of stress that uses up what little ATP you have left.

That is why when people start to get really ill, they tend to fade very rapidly: not because of the spread of the disease, but through a reduction in the ATP needed to provide the energy required for the body to fight the disease. Without an adequate supply of energy, your body would rapidly fade.

By taking a D-ribose supplement that passes unchanged right into your bloodstream and taken to where it is needed most, you body can rapidly generate sufficient ATP to keep up the fight against the agent that is making you ill. Your immune system is given a massive energy boost, and more importantly, your heart is kept beating. D-ribose is the answer to the prayer of many sick people, and also to athletes and bodybuilders needing quick bursts of energy. But what did they use before D-ribose was discovered to have the properties that it has?

At one time, it was adenosine monophosphate (that’s right, not ATP or ADP, but AMP) that was administered Intravenously to those suffering from chronic fatigue, this substance being synthesized to ATP in the body over a period of time. However, it take a lot of time to be effective, and the injections had to be made daily into the muscle tissue, so it fell out of favor.

Then came an ATP supplement that could be taken orally, but the side effects were unpleasant, and that too went out of favor. However, towards the end of the 1990’s D-ribose was found to overcome all of these disadvantages, and not only be able to be taken orally, but also to work almost immediately by providing the mitochondria with a direct source of the sugar they need to generate energy.

It is now one of the most popular energy providing supplements on the market, and also a remedy for chronic fatigue that helps the patient to overcome energy-sapping medical conditions both directly and by providing the immune system with the energy needed to keep it operating effectively against masses of invading bacteria and viruses. There is nothing better than D-ribose for providing you with the energy boost that you need, whenever you require it, either to provide energy for your sport or to help you overcome illness.

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Butcher's Broom Extract
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Date: May 02, 2008 11:04 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Butcher's Broom Extract

Butcher’s broom (Ruscus aculeatus) is a member of the lily family, and looks a bit like a holly bush with barbed evergreen leaves and bright red berries in the fall. At one time they were collected, tied together and sold to butchers as brooms to sweep out their shops.

The stiff leaves were particularly suitable for cleaning out offal and other waste products from butchered animals and also for scrubbing butcher’s blocks. It was also used as a deterrent to rodents with their eyes on the meat! Alternative names are sweet broom, kneeholy and Jew’s myrtle, so named because it was used during the Feast of the Tabernacles as one of the ‘four species’ used in the lulav.

The herb was commonly used in Ancient Greece and Rome, the Greeks using it to reduce swellings of various kinds and the Romans using it to treat varicose veins. It has the same uses today, only the mechanisms are understood better. It has been used for centuries in the Mediterranean area for the treatment of inflammations and problems with the circulation, and the Romans used to mash up the leaves and berries to add to wine, and they also used the roots and rhizome as a medicine by soaking them in wine. Today, it is illegal to use holly as a decoration in Italy, so butcher’s broom is used instead.

All parts of the plant are used, including the rhizome, and although it is used as a diuretic, and to control a loss of blood pressure experience by some people on standing up, it is its effect on blood vessels where its main medical benefits lie. Butcher’s Broom can strengthen certain portions of blood vessels, and change the flexibility properties of the cell walls.

The result of this is that the vessels are tightened up, which helps to maintain the flow of blood throughout the body, but also renders the cell walls less likely to leak or crack under stress. The result is a reduction in blood leakage from stretched and weakened blood vessels such as those that result in hemorrhoids, and also of conditions caused by weakened valves in the veins such as varicose veins and spider veins.

The blood pressure in the veins is very weak since they are so far away from the heart, the blood having passed through the arteries, through the capillaries and into the veins on its way back to the heart before being pumped to the lungs. When the valves become weakened, particularly in the large veins in the leg, there is little to prevent the blood from coming under the influence of gravity and pooling back down the vein, causing distention and occasional ruptures.

A ruptured varicose vein can be very serious and cause significant blood loss. Weakened valves can also lead to the formation of blood clots, which is itself a very serious condition that eventually blocks the heart or causes a stroke. Not only can butcher’s broom strengthen the vein walls and prevent leakage, and also enable them to more easily resist the pressure that can cause them to rupture, but it can also be used to break down blood clots. In fact the herb is used in many European hospitals to prevent the formation of blood clots after surgery.

The active ingredients in the rhizome are saponins that contain the aglycones ruscogenin and neuroscogenin and the associated spirostanol and furostanol glycosides. The receptors that cause vasocontraction are known as adrenoreceptors, these receptors can be selectively stimulated by butcher’s broom extract to tighten the veins and improve the return of blood. When introduced Intravenously, butcher’s broom was noted to constrict venules (small veins that feed the main veins but not arterioles (the small arteries than feed the capillaries). Hence blood vessels can be selectively treated, and the effect on isolated blood vessels was enhanced by heating. Many supplements include calcium that helps to strengthen the blood vessel walls.

It is possible, therefore, to target the blood vessels that require constrictive treatment in order that they are strong enough to return blood to the heart rather than leak or distend. However, that is not the only health benefit that butcher’s broom provides. It can also be used as a diuretic. It is not a strong diuretic, but is used to relief the swelling of bruises and PMS, the reason given being that since leakage from the blood vessels is lessened, then more fluid is available to pass through the kidneys. There might be other reasons.

It is also use for the treatment of ortho static hypotension, the reduction in blood pressure that some people experience. It is believed that butcher’s broom can control this condition without increasing blood pressure, as most other remedies do, and which is almost as undesirable as the condition they are treating.

There are few problems associated with the herb, although few studies have been carried out its use by pregnant women. Although the one test that was carried indicated no effect, it would be wise for pregnant or nursing women not to use it until further studies have been carried out. Due to its effect in tightening blood vessels, its use is not recommended by anybody suffering from high blood pressure (hypertension). Many hypertension treatments are designed to render the blood vessels more elastic rather than constrict them.

In one very small study of pregnant women who used a topical cream containing butcher's broom, no side effects were seen for either the mother or the baby. However, very little information is available on how oral butcher's broom might affect a developing fetus, an infant, or a small child. Therefore, its use is not recommended during pregnancy, while breast-feeding, or during early childhood.

Because it tightens blood vessels, butcher's broom may worsen high blood pressure or benign prostate hyperplasia (BPH). Individuals with either of these conditions should not use any form of butcher's broom without first consulting a doctor. The known side effects have already been stated, and they are fairly mild, but few studies have been made on the herb other than in Europe, and the side effects have not been fully explored. It is unlikely; however, that there are any as yet unknown serious side effects since butcher’s broom has been used now for a long time, particularly in Europe.

The term ‘ruscogenin’ is used for the collective mixture of active saponins in butcher’s broom, and many of the supplements are formulated to include from 5 to 15 mg of these. However, check the label, since standardization is not yet required in the USA, and in theory a preparation can include much more or much less ruscogenin. It is frequently supplied with other active ingredients, such as vitamin C or calcium, and perhaps even horse chestnut that affect blood vessels in a similar way. Always follow the instructions on the package, since these are designed for the specific strength of supplement you are using.

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Shark Cartilage
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Date: April 30, 2008 03:03 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Shark Cartilage

Sharks do not have skeleton of bone but of cartilage, which is a dense form of connective tissue. Its main components are cells known as chondrocytes that are responsible for producing collagen fibers, an elastic protein called elastin that is responsible for the skin returning to its original shape after being pinched, and ground substance that is rich in proteoglycan, a protein with glycosaminoglycan chains.

Shark cartilage is said to be beneficial in the treatment of many conditions including arthritis, psoriasis (allied to arthritis), rheumatism, eczema, acne, allergies and the most controversial – cancer. It is said to inhibit tumor growth by inhibiting angiogenesis – the formation of new blood vessels by growing them from old ones. This can lead to metastasis, or the spread of cancer between organs and also feed the cancer cells with blood.

Shark cartilage has been used medicinally for thousands of years, particularly in ancient China where its use is documented, and might also have been in other areas where the consumption of fish was high. However, the production of shark cartilage and its trade is not well documented. The major cartilage consuming countries are Australia, India, Japan and the USA, although it is used or consumed in many other countries, especially Hong Kong, Taiwan, China and, increasingly, Europe.

The best quality of cartilage is from the blue shark due to its higher chondroitin quality. Chemically, chondroitin is an acid mucopolysaccharide, and a very large molecule that is used for a variety of purposes. In arthritis it is difficult to get it to the source of the problem due to its physical size and large doses are used to ensure that at least a proportion passes through the capillaries to the joints.

Arthritis is a particularly prevalent disease and comes in two forms: osteo- and rheumatoid arthritis. Osteoarthritis develops over a long period of time, and generally the cartilage roughens and becomes thin, while the bone becomes thinner. Extra synovial fluid, that lubricates the joint, can be formed and that causes swelling. The bone tried to repair itself, but degeneration continues and the tendons become affected. Eventually inflammation can occur leading to severe swelling and pain. There are several causes, the most common being injury or repetitive hard use of the joints.

Rheumatoid arthritis, on the other hand, is completely different, and is caused by the immune system rather than wear and tear. The immune system mistakes parts of your joints as being foreign, and attacks the synovial membrane, or lining of the joint. It might also attack the sheath around the tendons. This eventually causes the cartilage to thin and the joints to wear, and the inflammatory response can cause painful inflammations. There is no apparent cause, though heredity, lifestyle and hormones might all be connected.

The effect of shark cartilage on arthritis is well documented, and in one study in the 1970s, only 11% of patients did not respond well to a treatment of cartilage injections. The pain relief the injections provided lasted from six weeks to over a year, though no reason could be provided for the vast difference. However, it did seem to demonstrate that the remedy was more than just a placebo. In another study involving bedridden osteoarthritis patients, eight out of ten could leave their beds after only three weeks of oral cartilage treatment. Shark cartilage appears to be effective when administered both Intravenously and orally.

In a later placebo study involving 147 arthritis patients, they were given either shark cartilage or a placebo. Those with the placebo were encouraged to use other treatments when their pain became severe. After five years the placebo group reported a 5% drop in pain scores compared to 85% of the group taking shark cartilage. The joint deterioration in each group was assessed, and was considerably less in the cartilage group, who also lost less time at work through pain.

All of these results indicate that shark cartilage can be used to relieve osteo- and rheumatoid arthritis pain in at least 60% of sufferers. Since rheumatoid arthritis has been linked to psoriasis, this could also explain its effects on psoriasis. What the studies did indicate is that you need not wait five years to find if the treatment is effective or not: if you do not experience positive results within between four and six weeks, then shark cartilage treatment will likely not work for you.

There is no doubt that shark cartilage can provide relief to painful, swollen joints, and this is likely due to the mucopolysaccharides. It can also prevent the undesirable growth of new blood vessels into the cartilage and appears to help to regulate the immune system. These are also two of the reasons why it is believed by some to be an effective treatment for cancer by preventing metastasis.

It was the publication of the book “Sharks Don’t get Cancer” that started the rush for shark cartilage as a a treatment for cancer, but the problem is that sharks do get cancer – they even get cancer of the cartilage! However, that does not mean that the scientific reasons for the inhibition of metastsis are invalid. They are valid, and it is metastsis rather than the original cancer that ferquently leads to death. Metastsis is the spread of the disease round the body by the bloodstream, and shark cartilage appears to be able to help to prevent that. It also prevents the growth of blood cells into cancerous areas to feed the cancers with oxygen and other nutrients.

Although there are few reported side effects of shark cartilage, in the interest of safety it is advised that children and pregnant women should avoid it. The same is true of people recovering from recent surgery since it could slow healing due to its effect on repairing blood vessels. If you have a low white blood cell count, do not have a shark cartilage enema since it can cause a potentially fatal infection.

Otherwise it should be safe to take, and is available in many forms including creams, capsules, powders and injections. The recommended dosage is 1 gram dried shark cartilage for each 7 Kg (15 lb) body weight. Once you begin to see an effect on the pain of your arthritis, one can then try to reduce the dose to 1 gram for each 18 Kg (40 lb) body weight.

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GTF Chromium
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Date: April 23, 2008 11:21 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: GTF Chromium

Chromium is a trace element in your body, meaning that it is present only in very small quantities, yet like many trace elements it is extremely important to your health. Most people associate chromium with the shiny finish on car fenders, but it is more than that.

Chromium oxide was discovered as being a part of crocoite, better known as red lead, which is actually lead chromate, sometimes containing some molybdate and perhaps vanadium. Although it was discovered in the middle of the 18th century, it was not until 1797 that chemist Louis-Nicholas Vauquelin discovered it for what it was. He synthesized it in his laboratory in 1798, which is the ultimate proof of the identity and chemical structure of any substance.

It was eventually named chromium, after the Greek ‘chroma’ meaning color, because its compounds are highly colored, normally yellow, red and green, and it is chromium that gives emerald its green color. It is also found in low concentrations in the human body, but too low, thankfully, to color your body red, green or yellow! Perhaps Martians contain a lot of chromium!

The first indication of the potential benefits of chromium to health was when a pork kidney extract called the Glucose Tolerance Factor was discovered in 1957 to enable rats to improve their use of insulin in maintaining the effective use of blood sugar in generating energy. The GTF contained chromium, and that was believed to be the effective ingredient.

Diabetes is a condition in which people either do not generate enough insulin or cannot use it properly. Insulin is a hormone biosynthesized in a group of cells known as the islets of Langerhen in the pancreas and is a necessary part of your metabolism. Your metabolism converts carbohydrates and various sugars into glucose, and when the glucose level reaches a certain concentration in your blood, you stop feeling hungry and the pancreas is stimulated into secreting insulin.

The insulin allows the cells to admit sugar and the mitochondria within them to convert the glucose to energy. Your body likes the blood glucose level to be maintained at between 70 and 110 mg/dl. If it falls below 70, then you will be suffering from hypoglycemia, but you can be above 110 if you have recently eaten. If your blood glucose is being measured it must be at least four hours after your last meal, which is why you are asked to fast first. The absolute maximum is 180 mg/dl, above which you are in trouble and suffering hyperglycemia.

If your pancreas cannot produce any insulin you are regarded as having Type 1 diabetes, and if it produces too little or your body cannot use it effectively, it is Type 2 diabetes. It is believed today that chromium is one of the factors involved in allowing the cells to absorb glucose, and that without it the mitochondria are unable to convert your blood glucose into energy.

Although up to 90% of Americans are thought to have a low chromium content, few are believed to be deficient and there is a big difference between the two. However, pregnant women and the elderly are particularly prone to a deficiency, as are those that consume too many sugary foods. A deficiency in chromium not only leads to an excess of blood sugar however, but also of cholesterol and triglycerides. This can in turn lead to atherosclerosis, heart disease and strokes.

Although the role of chromium in the control of blood sugar levels was discovered in the 1950s, it was not until the 1970s that it was proven. As with many such proofs it came about accidentally, through what was known as Total Parenteral Nutrition (TPN). This provided Intravenous nourishment to patients who were unable to eat, and contained a mixture of the nutrients believed to be essential to life.

However, the mixture was based on current knowledge, and it was found that some patients developed the symptoms of hyperglycemia, or high blood sugar levels. This was what would have been expected of untreated diabetics, but none were diagnosed with the condition so the cause was a mystery. The physicians responsible for the treatment had no option but to administer insulin, even though there appeared to be no deficiency in the patients.

If you are with us so far, then you will realize that the insulin would not have had the expected result. That is because the condition is not caused by too much sugar or carbohydrate in the diet, and also not caused by a deficiency of insulin. However, due to the known role of chromium in the action of insulin, it was then thought that TNP solution would be improved by adding chromium. When chromium was added in small quantities of under 50 micrograms (5 hundredths of a gram) the patients’ condition improved to normal, and the effect of chromium on blood sugar levels was finally proven.

So how does chromium achieve this? In fact the biochemistry is complex, and dietary chromium works in a different way to the chromium picolinate that is the most popular form of chromium supplement. However, in a nutshell, what appears to happen is that its effect on human tissue may be through an increase in the activation of Akt Phosphorylation, which is a protein within the body cells that enables the easy absorption of glucose into the cells.

In addition to that, cell membranes contain insulin receptor sites that respond to biochemical signals from messengers such as hormones and nutrients, and it is believed that chromium might be involved in promoting the binding of insulin to these sites. Alternatively, it is possible that it may promote the reactions that occur after the insulin has bound to the receptor site, an occurrence that is referred to as a post-receptor event.

Whether chromium is involved in a post-receptor event or in binding the insulin top the receptor sites, there is no doubting the importance of the element to the overall insulin-glucose-energy metabolism, and that the trace element chromium is indeed important in helping your body cells to absorb glucose.



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Boost digestion with Bifidus Longum and Acidophilus Probiotics
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Date: March 21, 2008 12:19 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Boost digestion with Bifidus Longum and Acidophilus Probiotics

Prior to discussing how you can boost digestion with bifidus longum probiotics, let's first have a look at probiotics in general and why they are so beneficial to us.

Probiotics are also known as microflora, and are beneficial organisms that live in your digestive tract. Not all microorganisms are bad news, and many are essential for good health. Included in these organisms are various types of bacteria and yeasts, each of which has a specific part to play in the proper functioning of your body. Because of this they are found in foods all over the world, including yoghurt and fermented vegetables such as German sauerkraut and Korean kimchi.

Among their major benefits to health are that they help to support your immune system, they aid the digestion and absorption of food, they provide increased energy by improving the metabolic conversion of blood glucose to energy, and they can also help to delay aging. However, you should be aware that not all probiotics are the same, and when used properly some can have the same effect as antibiotics.

They are used to cure many digestive problems such as irritable bowel syndrome and diarrhea, and can also help to relieve heartburn and acid reflux. In fact your lower intestine should contain a minimum of 85% friendly bacteria, and 15% at most of unfriendly bacteria that can cause disease if they over-colonize your colon. It might surprise you to learn that you have around twenty times more bacteria in your body than body cells.

One of the best known of the probiotics are members of the lactobacillus family that are contained in yoghurt and curds and whey, so Little Miss Muffet had the right idea. However, you might not have the right idea in eating commercial yoghurt because, while raw yoghurt does contain these helpful bacteria, the type that you buy in pots in the supermarkets has likely been pasteurized - a process that kills off the bacteria. Unless the product has been seeded with live bacteria after pasteurization, then there will likely be none in your yoghurt! Make your own!

So what are the probiotics that do you most good, and in what form should you consume them? The common friendly bacteria are the already mentioned lactobaccilus, and then lactococcus, streptococcus thermophilus, enterococcus, bifidobacterium and others. Bacteria are easily killed off by the acidic conditions in your stomach, and since they must be taken live they should be consumed in a form that can resist the stomach acid.

There are many ways in which they benefit you, the main ones that are currently understood being:

Lactic acid production: the presence of lactic acid in the gut prevents stops or slows the growth of harmful bacteria by increasing the acidity. Some probiotics, known as lactic acid bacteria (LAB) can do this. Most bacteria do not like acidic conditions.

Supporting the immune system: LAB bacteria have been shown to increase the production of cytokines that stimulate the activity of the macrophages that attack foreign viruses and pathogenic bacteria. The LAB also promotes the formation of NK-cells (natural killer cells) that destroy cells that have been infected by viruses.

Adhesion site blockage: bacteria attach themselves to your intestinal walls at specific adhesion sites. Friendly bacteria can colonize these sites and so prevent the pathogens from adhering.

Effect on the Intestinal wall: the intestinal wall has a natural mucous barrier that helps to prevent the passage of allergens and pathogens into the bloodstream through the intestine. Probiotics can strengthen this barrier, and also alter the nature of the mucous to render it less liable to penetration by these unwelcome visitors.

So where does bifidobacteria come into this? There is a number of strains of this bacterium living in the human body, but Bifidus longum is the most common or most abundant of these. Although it is the most common bacterium found in commercially available probiotic products, high numbers have to be consumed for the proper health benefits. However, commercial yoghurts contain very little of this bacterium, or even none at all. This is largely due to the pasteurization previously discussed, that kills the bacteria at high temperatures. Unfortunately this process is not selective, and in ridding the products of bacteria that could make you seriously ill, the beneficial bacteria are also destroyed.

This is a shame because Bifidus longum has been shown to inhibit E.Coli that can cause serious conditions of the digestive system. Among these are severe diarrhea and an inflammatory condition in the colon as the immune system tries to expel these nasty bacteria. This bacterium is particularly dangerous to the weak, such as the aged, children and people already weakened by illness.

It also helps to counteract yeast and other vaginal infections and when taken with other probiotics is believed to help in colon cancer cases. Among its other benefits are its part in the biosynthesis of thiamine, riboflavin and other vitamin B forms in your intestine, and also the absorption and assimilation of these vitamins by your body. It is also believed that it might help to reduce the cholesterol level in your body through its uptake of bile salts from the colon.

The major destructive elements of Bifidus longus are antibiotics of any kind, whether they be penicillin variants or tetracycline, and although the latter is used mainly for infections of the respiratory tract, it is ingested by the gut and effectively reduces the population of the bacteria that are needed for optimum health. That is one of the reasons why antibiotic use should be restricted to only what is necessary, and not use indiscriminately for all infections. Unless administered Intravenously or site targeted, antibiotics kill off the good with the bad!

The other activities of Bifidus longus, such as removing the by-products of our metabolism that could be toxic if left to roam our bodies, render this bacterium as useful to your body as any vitamin or mineral supplement you could take. It is a supplement that many either overlook or are not even aware of, yet one that can make a significant difference, not only to your digestive and intestinal health, but also to you general overall wellbeing.

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Astaxanthin, a Member of the Carotenoid Family, is a Powerful Antioxidant
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Date: January 31, 2008 09:00 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Astaxanthin, a Member of the Carotenoid Family, is a Powerful Antioxidant

Astaxanthin is a member of the carotenoid family responsible for the red color of many types of algae. Being a carotenoid, it is a powerful antioxidant and free radical scavenger as well as support proper eye function.

However, such a bland statement belies the true worth of astaxanthin in its fight against free radicals. It is of particular benefit in its ability to absorb the high energy of singlet oxygen, releasing it as heat, and returning the singlet oxygen to its ground neutralized state. Singlet oxygen is a particularly harmful and reactive oxygen species of free radical that is formed in the body as part of our normal metabolism, and that contains a high level of free energy that can be used to oxidize and destroy the cells of your body.

In achieving this, astaxanthin is regarded as one of the most potent plant derived antioxidants known, being up to ten times more active than beta carotene, Lutein or its cousin canthaxanthin. So why are antioxidants so valuable to our biochemistry and what would happen if they did not exist?

Free radicals are thieves that use your body as their operating ground. They operate by stealing an electron from a molecule that comprises part of you, and in some cases when this occurs the cell from which the electron is removed is destroyed. Generally electrons go around in pairs, but occasionally an electron pair can lose one of the electrons during a chemical reaction. Many such reactions occur naturally inside the body, especially during the production of energy from blood sugars in the mitochondria, and such a molecule containing a single unpaired electron is called a free radical. Free radicals are also generated by the reactive components of many pollutants such as traffic fumes and cigarette smoke, tars and pesticides, and also by the effect of UV radiation in sunlight.

The only purpose of a free radical is to steal an electron from the first source it can find. Such reactions occur very rapidly after the free radical has been generated, and if this electron belongs to another body cell, then the cell is destroyed leading to effects such as premature aging or even cancers. Free radical oxidation of the LDL lipids that carry cholesterol around the blood causes the deposition of fatty plaques inside arterial walls that eventually become constricted or even blocked, leading to heart disease or strokes.

That is why antioxidants that destroy these free radicals are so prized, and the more of them that there are in your body then the less affect the free radicals will have on you. You will retain your youthful looks longer, and will be less liable to suffer from heart disease, cancers, circulation problems and conditions such as diabetes. Many abnormal conditions can be laid at the door of free radicals.

The stronger the free radical, the more harm it can do to you and a strong antioxidant such as astaxanthin is a very powerful weapon in your armory against them. Astaxanthin is a member of the oxygenated xanthophylls, and its high level of antioxidant power likely comes from the ketonic and hydroxyl functional groups of the ionone ring structure. It is more polar than most carotenoids, and this is a likely reason for its ability to span the cell membrane layers, with the active groups close to the hydrophilic-hydrophobic interface. They are thus more readily available at the sites where most free radicals tend to be found and provide immediate protection to the cell membrane and also to the Intracellular mitochondrial membrane.

Many antioxidants destroy free radicals by donating an electron, and become oxidized themselves. Astaxanthin, however, does not do this, but instead adds the free radicals to its long double bonded chain hence avoiding oxidation and rendering it much more powerful than normal antioxidants. It is unusual among antioxidants in that it is also able to cross the blood-brain barrier, and so reduces oxidative stress that can cause neurological disorders in general, and also problems with eyesight. It can also attach itself to lipoproteins to enable it to be carried throughout the bloodstream, being available anywhere that free radicals are generated. The carotenoid is also active against active oxygen species that are responsible for inflammation.

Another property is its ability to neutralize the oxygenated free radicals formed by the photo-oxidation properties of UVA and UVB radiation. Included in these are the previously mentioned highly reactive singlet oxygen and also triplet oxygen that astaxanthin is able to neutralize without becoming oxidized. In fact reactive oxygen species in general can cause oxidative stress, and they have been thought responsible for many forms of disease and health conditions, and the powerful effect of astaxanthin in targeting many of these has led it to be regarded as highly beneficial to the immune system and to health in general.

Another benefit is the ability of the substance to help prevent the oxidation of high density lipoproteins (HDL) that are responsible for carrying cholesterol in the blood back to the liver for destruction. Free radical oxidation of HDL impairs its ability to transport cholesterol, and so decreasing the level of such free radical oxidation will by definition increase the quantity of good HDL available, and hence reduce the concentration of cholesterol in the blood. Studies have proved this to be the case, and astaxanthin supplements are very beneficial to those suffering from high blood cholesterol levels, and helps protect them from heart disease and strokes.

The substance is naturally available from a wide range of marine sources, such as lobsters (where it was first discovered), shrimp, salmon, trout and in a wide variety of red and green algae. The substance is also used as a red pigment. Carotenoids are essential, meaning that they are not produced in the human body and can only be obtained in our diets.

For that reason, the most convenient way to take it, apart from continually eating shrimp and lobster, is as a supplement. Astaxanthin is available either as a powerful antioxidant in its own right, or in combination with other substances with which it acts to provide a very strong deterrent to any free radicals that think they can freely roam your body.



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L-Glutathione Can Eliminate Toxins in the Liver
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Date: December 07, 2007 11:54 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: L-Glutathione Can Eliminate Toxins in the Liver

L-glutathione is the reduced form of glutathione, and is a tripeptide synthesized in the animal and plant tissues from glycine, cysteine and glutamate. Commonly known as GSH, it contains thiol groups that are maintained in a reduced state, and is a very powerful antioxidant, considered to be the key antioxidant and protective substance in the body.

Glutathione can reduce any disulfide groups in the cytoplasm within the body of the cell, and ensures that the cytoplasm is a strongly reducing medium protecting against oxidation. It has a synergistic effect with other antioxidants to protect the body against free radicals and oxidizing agents that cause so much damage to the body through what is commonly referred to as ‘oxidative stress’. However, there is more to it than that and it attaches itself to toxic chemicals and drugs in the liver and renders them into a state suitable for elimination from the body.

These toxic materials include poisonous pesticides, hydrogen sulfide, carbon monoxide, heavy metals such as mercury, cadmium and chromium and many other substances that we come into contact with due to present day pollution of our atmosphere and foodstuffs. Glutathione can also help protect the body from the effects of chemotherapy and evidence is suggesting possible links with the control of some cancers, diabetes, atherosclerosis and many other degenerative conditions caused by free radical attack and the effects of pollutants.

The way that GSH acts in the cells is that the redox state of the glutathione-glutathione disulfide couple is critical to the health of the intercellular and Intracellular fluid. GSH in the reduced state of glutathione reacts with an oxidative agent such as hydrogen peroxide to form the oxidized form, glutathione disulfide and water. It hence mops up oxidizers such as peroxides and free radicals within the cytoplasm of the body’s cells, and also in between the cells. The disulfide is then converted back to GSH by the combined action of the enzyme glutathione reductase and NADPH (the reducing agent nicotinamide adenine dinucleotide phosphate).

The cycle then repeats so that two molecules of glutathione continue to reduce damaging oxidizing agents without themselves being consumed. In so doing, the NADPH becomes oxidized. A continuous supply of NADPH is needed to allow GSH to undergo these biochemical reactions, and up to 10% of our blood glucose is used by the pentose phosphate pathway by which NADPH is synthesized.

Since this cycle consumes no glutathione, it would appear that a supplement is unnecessary. However, this is not the case since the molecule takes part in other reactions in the body, particularly in the elimination of toxic heavy metals from the body. Mercury is highly reactive with the thiol that GSH is, and so will bind to form a stable Hg-sulfydryl bond in the liver. This mercury-glutathione chelate is unable to bind to other proteins or gain access to the body cells, and is eventually harmlessly secreted. The same is true of many other heavy metals that are reactive with thiol’s.

In this way the body is protected from the harmful effects of these heavy metals. However, it results in the loss of the glutathione, and the pollution of modern day living can take a heavy toll of the GSH content of our bodies. For this reason a glutathione supplement is recommended, especially for city dwellers that may be exposed to more heavy metals than those residing in rural areas.

However, the form in which this supplement is taken is very important, because the human digestive tract contains a significant amount of gamma-glutamyltranspeptidase. That is an enzyme which apparently destroys glutathione before it can be absorbed. However, it can be absorbed directly into the bloodstream by dissolving the pill between the teeth and inner cheek. It has also been suggestion that the supplement could be administered by injection.

Others have suggested that rather than administer a supplement, individuals could take other supplements that contain the materials needed to stimulate the formation of GSH. Substances such as vitamin C, selenium (important in GSH biochemistry), methionine, alpha-lipoic acid and glutamine could all help to increase the body’s production of glutathione. A supplement of the constituent parts of cysteine, glycine and glutamic acid should also help. The dosage ranges recommended vary widely from 50mg to 500mg daily, and the effects of supplementation are not yet well know.

Some specific conditions that this wonder antioxidant is useful in treating include liver disease such as hepatitis, cirrhosis and so on. Patients suffering from these diseases show a massive reduction in their GSH content and prior GSH treatment appeared to offer a significant degree of protection in controlled clinical investigations. Patients suffering from chronic hepatitis C have been found to be associated with reduced GSH levels, particularly if also HIV positive.

Similar deficiencies have been noted in some lung conditions such as asthma and other pulmonary conditions. In such cases it has been demonstrated that administration of GSH supplements sufficient to restore normal levels of the substance improved the patients’ conditions by a significant amount. Its effect on atherosclerosis appears to be significant since a decreased level of GSH peroxidase has been recorded in such patients in addition to an increase in lipid peroxides, indicating that oxidation of the arterial wall had been occurring.

Anti-viral therapies that rely on GSH biochemistry for their action have been found to be less effective in those with low GSH levels, and other studies have confirmed that supplementing with GSH improves the response to interferon treatment. These results indicate the activity of oxidizing agents and free radicals in liver conditions, and in fact this has been demonstrated by tests carried out in New York and Philadelphia in the 1990s.

This suggests that the liver is prone to damage by oxidative stress, and that GSH levels may be able to be used as an indication of potential liver disease. What is evident is that a strong case can be made for glutathione supplementation as protection against potential liver, pulmonary and cardiovascular diseases, especially by those exposed to specific polluting agents such as primary or secondary tobacco smoke, auto and diesel fumes and chemicals and pesticides.

L-glutathione is useful, not only for the elimination of toxins in the liver, but also in protecting this large and vital organ from the oxidative stress that modern living brings. L-Glutathione and its precursors are sold over the counter at your local or internet health food store.



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Tongkat Ali: The Natural Viagra?
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Date: October 22, 2007 10:02 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Tongkat Ali: The Natural Viagra?

Tongkat Ali is also known as Longjack, and is a well known aphrodisiac in South East Asia, the root of which has been found effective both as an aphrodisiac and in treating certain sexual problems including failure to achieve an erection. What Viagra does in the west, Longjack does in the east, only cheaper.

The tree is also called Pasak Bumi, and had originally been used for many years as a treatment for malaria, the side effects being accepted but not understood as originating from the malaria medication. Some though that the malaria itself perhaps caused them, and was a long time before the effect of tongkat ali on the testosterone levels in the body was understood.

The name literally means Ali’s walking stick, and is named after the long roots from which it is extracted. The tree itself is about ten metres high, and grows beneath the canopy of the Indonesian rainforests. However, due to a heavy demand for the product, the older trees are increasingly more difficult to find, and most of the herbal preparation is extracted from younger trees. The tree itself is not easy to cultivate outside its natural environment, and is very slow growing.

Unlike many herbal remedies used in Asia, the effects of Tongkat Ali on the libido have been supported by scientific medical evidence, and it has been demonstrated to support the availability of unbound testosterone and to support hormonal balance in general. It had been used for many years to promote sexual desire and sexual ability before the medical evidence was obtained to provide scientific support to what was already known by the indigenous population: that it was effective in improving sexual ability, stamina, and endurance and to reduce mental fatigue in general.

Although it was originally used as a treatment for malaria, Longjack increases the natural production of testosterone in the body and hence improving the male sex drive and also that of women. It is a little known fact that women, too, need testosterone for their sexual impulses. However, it is probably more important from a physiological point of view that testosterone is essential to women in that it increases the metabolic rate and accelerates the burning and elimination of fats, and the production of red blood cells and the development of muscle tissue.

As the production of testosterone drops off with age, generally starting after about thirty years, bodybuilders find it increasingly more difficult to maintain a good body shape and muscle shape. They are interested in anything that could feasible maintain or even increase the production of testosterone by the body, and Tongkat Ali does this. To them, the increase in their libido, or sex drive, is a bonus that they will not refuse to take advantage of!

Eurycoma longifolia, the scientific name for the tree, increases the amount of adenosine triphosphate (ATP) in the body. ATP, along with its cousin adenosine diphosphate (ADP), is responsible for the availability of energy for use by the body. It is normally created from ADP and glucose, and an increased availability in the blood can reduce the fatigue caused by its consumption through vigorous exercise. However, if too much ATP is available, the subject can suffer from insomnia and restlessness since there is too much ATP in the body.

The function of the ATP is to provide available energy that can be used by the muscles in exercise. When energy is used up the ATP is converted to ADP, which needs more glucose to reform the ATP. If there is excess ATP, it is like a charged battery within the body, and we become restless until the energy available is used up.

Another benefit of this amazing substance is that it helps the body to increase its own production of sex hormones, rather than simply provide them for it. People who suffer from sexual dysfunction conditions tend to be provided with HRT (Hormone Replacement Therapy) from their physicians or doctors which involve the introduction of testosterone Intravenously. The result of this is that your body recognizes that it has a sufficient supply of testosterone and so stops making it for itself. Eventually your body just stops testosterone production, and relies on the artificial supply it has got used to receiving. Longjack treatment, however, does not provide a supply of testosterone, but stimulates your body to produce its own, which is better for it in the long run.

You should, however, be made aware of the possible side effects or testosterone administration which are insomnia, anxiety and a possible reduction in your immune functions. There are also other possible side effects if you suffer from diabetes, or heart liver or kidney disease, and you should always refer to your doctor before commencing its use. If you start off your treatment with small doses and check out the side effects at each stage, then you will be able to safely find out if these side effects relate to you. If not, then you are all set as long as you obey the advice of your physician.

Another natural product that is recommended as an aphrodisiac is Horny Goat Weed, but when used in combination with Tongkat Ali it appears to have a synergistic effect. Horny Goat Weed is also called Fairy Wings and a number of other alternatives names, and is not one but about 60 different flowering plants found in southern China. It works by increasing the nitric oxide concentration in the body that helps to relax the smooth muscles.

By itself Horny Goat Weed is an effective aphrodisiac, but the combination of its effect in relaxing the penile muscles and the increased testosterone levels promoted by Longjack is extremely powerful, and much more effective in resolve sexual problems in men that either of them alone.

For this reason tongkat ali is frequently sold in combination with horny goat weed. Although not unusual, it is not common to find natural herbs that have such a profound effect on the libido and whose effect is backed up by scientific evidence. Tongkat ali is one of those, and although it is still currently mainly used in Asia, demand for it in the west is rising.



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Paulings Vindication
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Date: May 28, 2007 11:50 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Paulings Vindication

Decades later, in January 2007, the FDA finally acknowledged the legitimacy of Pauling’s approach by approving the Cancer Treatment Center of America’s investigation of high-dose Intravenous vitamin C and its effects on cancer patients. Meanwhile, Korean researchers undertaking a similar investigation reported in February 2007 that cancer patients receiving mega-dose Intravenous vitamin C were found to show greater physical, emotional and cognitive function, while reporting less fatigue, nausea, vomiting, pain and appetite loss.

Intravenous mega-dose vitamin C is entirely different league from supplementation—but many studies suggest that vitamin C supplements may help prevent cancer.

In the Nurse’s Health Study, premenopausal women with a family history of breast cancer who consumed an average of 205mg of vitamin C every day (well above the RDA) experienced a 63% lower risk of breast cancer than women who consumed an average of 70mg a day. A prospective study that tracked 870 men over 25 years found that those who consumed over 83mg of vitamin C daily had a 64% reduction in lung cancer. University of California researchers tracking 12,000 adults for an average of ten years found that those with the highest vitamin C intake had the lowest death rates for all cancers. Finally, an analysis of 90 separate studies found that vitamin C and vitamin C rich foods offered significant protective effects against various forms of cancer.

Vitamin C is already a supplement superstar—but, as it turns out, we may just be beginning to understand its far-reaching health benefits. –Patrick Dougherty

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Vitamin C Citations
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Date: May 28, 2007 11:49 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Vitamin C Citations

What is it? The world’s best known water-soluble antioxidant vitamin; also known as ascorbic acid.

What does it do? Has aided anti-cancer therapy when used Intravenously (under a practitioner’s supervision); ingestion of more commonly available dosages has been linked with both reduced cancer risk and lower risk of death from all causes.

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Vitamin C History
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Date: May 28, 2007 11:48 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Vitamin C History

In the mid-18th century, fruits and vegetables—especially lemons and limes—were found to ward off scurvy, a disease that had for centuries plagued sailors on long sea voyages. Vitamin c, of course was the nutrient behind this scurvy protection—but it didn’t get its kudos until it was identified by Hungarian researchers in the 1930s. Soon after, synthesized vitamin C was mass produced, launching the legacy of history’s most popular supplement.

Vitamin C found its champion in the 1960s, when famed chemist Linus Pauling began challenging the Recommended Daily Allowance (RDA) for this nutrient in favor of higher dosages he believed would be more effective in preventing disease. While the RDA hovered between 75 mg to 90 mg daily, Pauling was known to take up to 18,000 mg of vitamin C per day; the Linus Pauling Institute now recommends 400mg daily.

Pauling believed these higher vitamin C doses showed great promise in neutralizing the common cold, supporting cardiovascular health and even treating cancer. When Pauling experimented with giving terminal cancer patients super-high doses of vitamin C Intravenously, he found that the nutrient appeared to both mitigate traditional cancer treatments side effects and lengthen lifespan. Despite Pauling’s acclaim, his vitamin C cancer research was largely disregarded.

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EpiCore Benefits
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Date: April 09, 2007 05:02 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: EpiCore Benefits

Benefits

EpiCor® is a unique and novel dietary supplement used for support of immune health, with a fascinating history of discovery. In 1943, a company in Cedar Rapids, Iowa called Diamond V Mills, Inc. began manufacturing and selling a fermentation product from the yeast Saccharomyces cerevisiae, the same yeast used in bread and beer making. The product was and still is used as an additive for animal feed to help improve digestion as well as overall health in animals. It has been on the market for over 60 years.

Interestingly, when the company became self-insured, they became aware of unusually low rates of illness in employees that worked in the manufacturing plant for this animal product. This led to very low increases in their insurance premiums over the years compared to other companies, saving them quite a lot of money. Hence they began to investigate what might be the cause of the “healthfulness” of the employees at the fermentation plant. This investigation and subsequent research studies led to the formation of a new company called Embria Health Sciences, which now produces EpiCor® as a supplement for humans to support immune system health.1 Doctor’s Best® is proud to now offer the benefits of EpiCor® to its customers.

Beneficial Support of the Immune System and Activation of Natural Killer (NK) Cells in vitro*

A comparison study was performed on blood from 10 fermentation plant workers compared to that from 10 age and gender matched controls. The fermentation plant workers had several immune cell parameters that appeared superior to the control group. These included decreased levels of CD8 cells resulting in significantly increased CD4 to CD8 ratios, significantly improved cytotoxic natural killer (NK) cell activity even though total NK cells were decreased in number, higher killing efficiency of NK cells, significantly increased levels of secretory IgA, increased numbers of EpiCor™ specific antibodies, higher levels of red blood cell Intracellular glutathione, and significantly lower levels of immune complexes. These results represent benefits on various cellular players of both the specific and innate parts of the immune system.1,3,4

NK cells are one of the first lines of defense used by the immune system. An in vitro study performed on human cells showed that NK cells were activated after incubation with EpiCor®, as evaluated by expression of the CD69 activation marker. The CD25 marker (IL-2 receptor) was also induced in the NK cells, although to a lesser degree.1,2 B cell activation was also noted through increased expression of CD80 and CD86 markers.2 Immediate increases in calcium levels were evident in peripheral blood mononuclear cells after exposure to EpiCor®, suggesting increased activation through calcium regulation.2

High Metabolite Immunogen*: Nutrient Make-up

Production of EpiCor® utilizes the common and harmless bakers or brewers yeast Saccharomyces cerevisiae in a patented process called MetaGen4™, a multi-stage fermentation and drying process. It differs from other yeast products in that it contains both the yeast itself as well as the metabolites or “nutrilites” formed by the fermentation process, which are present in the media.1 Together the media containing the metabolites and the yeast are dried to form EpiCor®. Analysis of EpiCor® reveals that it contains a mixture of natural polyphenols, phytosterols, beta-glucans, mannan oligosaccharides, fiber, trace amounts of B vitamins and minerals, as well as a host of other nutritional compounds.1,2

Beneficial Antioxidant Activity*

EpiCor® was tested for antioxidant activity in an in vitro assay called the Oxygen Radical Absorbance Capacity assay (ORAC). In this assay, EpiCor® was shown to have a total ORAC antioxidant level of 610 micromol TE (tocopherol (vitamin E) equivalents) units (ORAC units) per gram dry weight, which soared above other high antioxidant level foods such as cranberries (93 ORAC units per gram dry weight) and blueberries (62 ORAC units per gram dry weight).1,3,5

In another study, freshly isolated human neutrophils were treated with EpiCor® followed by the free radical generator hydrogen peroxide. Cells were treated with a dye that fluoresces when attacked by free radicals. Those cells treated with EpiCor® showed decreased fluorescence intensity compared to control cells not treated with EpiCor®, verifying antioxidant activity in vitro.2

Safety

Numerous safety tests have been conducted on EpiCor®, revealing an extremely safe profile. Animal studies performed by a leading toxicology laboratory showed no indication of any toxic effects of EpiCor®. An acute oral toxicity study on 20 rats showed that the product was safe when given to rats at a single oral dose of 2000 milligrams per kilogram of body weight (equivalent to a human ingesting 280 capsules at once). After 2 weeks the rats showed no clinical symptoms, no deaths, no abnormalities in body weight, and no gross pathological changes. The same safety results were found in a subchronic toxicity study where rats were given up to 1500 milligrams daily for 90 days (equivalent to a human ingesting up to 210 capsules daily for 1.5 years). Again, absolutely no signs or symptoms of toxicity were noted in these animals.1,3

In addition, a standard bacterial reverse mutagenicity test (AMES test) as well as a mammalian cell mutation assay using mouse lymphoma cells revealed no evidence of any increase in mutation rates after exposure to EpiCor®. EpiCor® also showed no evidence of mitogenicity (inducing increased cell division) in a human lymphocyte proliferation assay. This suggests that EpiCor® does not cause over-reactivity of cells1,3.

The effect of EpiCor® on specific liver enzymes CYP1A2 and CYP3A4 (enzymes involved in metabolizing certain drugs and other compounds) was assessed. Immortalized hepatocytes (liver cells) were treated with various concentrations of EpiCor® and compared to both positive and negative controls. EpiCor® did not increase the expression or activity of the liver enzymes, suggesting that it may not affect the metabolism of other substances or medications metabolized by these enzymes if they are taken simultaneously. It also did not appear to be toxic to the cells as measured by lactate dehydrogenase assays and microscopic analysis.1

Lastly, EpiCor® was tested for safety in humans in an open label study on 15 adult men and women given a single 500 milligram dose for 30 days. On various days throughout the study vital signs were monitored, and blood and urine samples were analyzed. No clinically relevant abnormal effects on the participants were found1.

 

EpiCor® also currently has received self-affirmed Generally Regarded as Safe (GRAS) status by an expert panel that included eminent toxicologists1.

 

EpiCor® is a novel compound with an incredibly unique composition that has been shown to enhance immune system function.*

Suggested Adult Use: Take one capsule daily with or without food.

 

 

*This statement has not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure, or prevent any disease.

 

Scientific References

1. Embria Health Sciences

2. Hart et al. A new Saccharomyces cerevisiae based product has anti-inflammatory effects while specifically activating human NK and B lymphocyte subsets. Unpublished study, personal communication.

3. Schauss AG, Jensen G, Vojdani A, Financsek I. After decades of ingestion by farm animals, the discovery of a yeast fermentate with unexpected significant immune modulatory activity when consumed by humans. [abstract] Journal of the American College of Nutrition, 2006; 25(5): 465.

4. Schauss AG, Vodjani A. Discovery of an edible fermentation product with unusual immune enhancing properties in humans. [abstract] FASEB J, 2006; 20(4):A143.

5. Wu X, Beecher GR, Holden JM, Haytowitz DB, Gebhardt SE, Prior RL. Lipophilic and hydrophilic antioxidant capacities of common foods in the United States. J Agric Food Chem 2004 Jun 16;52(12):4026-3



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CoQ10 for Heart Health
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Date: March 28, 2007 12:39 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: CoQ10 for Heart Health

CoQ10 for Heart Health

 

More than 40% of all deaths in the U.S. are from cardiovascular disease (CVD). You have a greater chance of dying from heart disease than from cancer, AIDS, diabetes, and accidents combined. More than 2,600 Americans die each day of CVD – an average of 1 death every 33 seconds. One in 5 men and women have some form of CVD. If all forms of major CVD were eliminated, life expectancy would rise by almost 7 years.

One of the most – if not the most – important things people can do to improve their overall health and life expectancy is to improve their heart health. Diet, exercise, and the wise use of dietary supplements can improve heart health dramatically. One dietary supplement that’s extremely beneficial to heart health is coenzyme Q10 (CoQ10).

 

Q. What is CoQ10?

A. CoQ10 is a natural, fat-soluble nutrient present in virtually all cells. CoQ10 also is known as ubiquinone. That’s because CoQ10 is ubiquitous and exists everywhere there is life. CoQ10 is vital to adenosine triphosphate (ATP) production. ATP is the energy-rich compound used for all energy-requiring processes in the body. Although COQ10 is produced by the body and exists in some dietary sources, these levels may be insufficient to meet the body’s requirements. CoQ10 levels diminish with age and as a result of dietary inadequacies and various disease states. Also, some drugs, especially a group of cholesterol-lowering prescription drugs known as “statin,” (Pravachol, Zocor, Lipitor, etc.) significantly reduce CoQ10 levels in the body.

 

Q. For what health conditions is CoQ10 used?

A. CoQ10 is beneficial in treating and preventing CVD and conditions such as high blood pressure, atherosclerosis (hardening of the arteries), angina, and congestive heart failure (CHF). It’s been shown that heart attacks tend to occur when CoQ10 levels are low in the body. In addition, CoQ10 is beneficial for diabetes, immune dysfunction, cancer, periodontal disease, prostate cancer, and neurological disease.

 

Q. Why is CoQ10 especially important to heart health?

A. The heart is one of the most metabolically active tissues in the body. In the average person, the heart propels 2,000 gallons of blood through 65,000 miles of blood vessls by beating 100,000 times each day. Thus, it requires large amounts of uninterrupted energy. Heart cells have a greater number of mitochondria, and subsequently, more CoQ10 than any other type of cell. Each heart cell can have thousands of mitochondria to meet these energy demands.

 

Mitochondria are highly specialized structures within each cell and are often referred to as cell powerhouses. These tiny energy-produces produce 95% of the energy the body requires. The number of mitochondria in a cell depends on its function and energy needs. A cell’s ATP production is dependent on adequate amounts of CoQ10.

 

Heart disease patients are commonly CoQ10 deficient. Correcting such deficiencies often can produce amazing results. The presence of supplemental CoQ10 is a key to the heart’s optimum performance.

In people who have had a heart attack (myocardial infarction), CoQ10 assists in repairing the heart muscle and restoring heart function. This is due to increased ATP production.

 

Q. What studies support this fact?

A. A 1998 study found CoQ10 can provide rapid protective effects in patients with a heart attack if administered within three days of the onset of symptoms. The study focused on patients admitted to the hospital with an acute myocardial infarction (AMI) diagnosis. Seventy-three patients received CoQ10 (120 mg/d). The study’s control group consisted of 71 similarly matched patients with acute AMI. After treatment, angina pectoris (severe chest pain signifying interrupted blood flow to the heart), total arrhythmias (dangerously irregular heartbeats), and poor function in the left ventricle (the essential chamber of the heart) were significantly reduced in the CoQ10 group compared to the placebo group. Total deaths due to sudden cardiac failure and nonfatal heart attacks also were significantly reduced in the CoQ10 group compared with the placebo group.

 

In another study, CoQ10 was studied in 109 patients with high blood pressure (hypertension). The patients were given varying doses of supplemental CoQ10 with the goal of attaining a certain blood level (greater than 2.0 mcg/l). Most patients were on medications to treat hypertension. Half the patients were able to stop taking one to three antihypertensive drugs at an average of 4.4 months after starting CoQ10. Only 3% of patients required the addition of one antihypertensive drug. The 9.4% of patients who have echo cardiograms, performed both before and during treatment, experienced a highly significant improvement in heart wall thickness and function. This improvement was directly attributed to CoQ10 supplementation.

 

Congestive heart failure (CHF) is a debilitating disease that affects 5 million people in the U.s. It causes edema, difficult breathing, and impaired circulation. In another study, CoQ10 restored healthy heart function in CHF patients. Patients received 100 mg of CoQ10 or a placebo twice daily for 12 weeks. Before and after the treatment period, the investigators introduced a catheter into the right ventricle of patients’ hearts to determine the degree of CHF damage to the heart muscle. The patients’ heart muscles at rest and work improved significantly. The researchers concluded CHF patients would greatly benefit from adjunctive CoQ10 treatment.

 

Q. I’ve heard that CoQ10 can also help people who have neurological diseases. Is this true?

A. Yes, it is. CoQ10 has been studied for its ability to improve the health of individuals with amotrophic lateral sclerosis (ALS), Parkinson’s disease, and Huntington’s disease. A recently completed study sponsored by the National Institutes of Health showed that CoQ10 caused a slowing of the progression of Huntington’s disease, a devastating and degenerative disease that is always fatal. In fact, no other medication, drug, or nutritional supplemental has ever been shown to cause a decline in the progression of this terrible disease.

 

The study compared CoQ10 against remacemide (an investigational HD drug made by AstraZeneca Pharmaceuticals), in 347 HD patients who were in the early stages of the disease. Remacemide blocks glutamate, the neurotransmitter scientists think may cause the death of brain cells that occurs in Huntington’s disease. While remacemide had no effect on the progression of HD, CoQ10 showed a trend toward slowing the disease by an average of 15%. This meant the HD group taking CoQ10 was able to handle every day activities of life a little longer than the patients taking remacemide or a placebo. They also were able to focus their attention better, were less depressed, and less irritable. The 15% slowing of decline means that CoQ10 can result in about one more year of independence for HD patients. Needless to say, the gift of an additional year of health in the lives of HD patients is incredibly significant.

 

Because of these impressive results with HD, researchers are hopeful that the studies of CoQ10 in those with ALS and Parkinson’s disease will similarly have a positive effect on the symptoms and/or progression of these neurological disorders, too.

 

Q. Why is it crucial for a CoQ10 supplement to cross the blood-brain barrier?

A. The brains’ blood vessels are composed of cells with extremely tight junctions. These junctions form the blood-brain barrier, which restricts what can pass from the bloodstream into the brain. While this barrier protects the brain, it can be a significant obstacle to central nervous system therapy. To leave the bloodstream and reach the brain cells, a substance must pass through the tightly connected cells of the capillary walls. Only substances with unique solubilities or those with a transport system can cross the blood-brain barrier to a significant degree. As a result, crossing the blood-brain barrier presents a significant challenge to supporting neurological health.

 

While most CoQ10 supplements enter the bloodstream and increase blood serum levels, only special forms of CoQ10 have been shown to cross the blood-brain barrier. For CoQ10 to enter the mitochondria within the brain, CoQ10 must first cross the blood-brain barrier to produce significant neurosupportive clinical results.

 

Q. How can one supplement have applications for neurological diseases, heart health, and even the immune system?

A. Supplements often have more than one function, especially when it’s a substance like CoQ10, which is present in all parts of the body. All nucleated cells (most cells other than red blood cells) have mitochondria and all cells require energy to function. CoQ10 is vital to ATP production. Thus, CoQ10 has applications not only in neurological (neurons or nervous system cells) and cardiac health (myocardium or heart tissue), but also for the immune system.

 

Q. Are all CoQ10 supplements created equal? Doesn’t CoQ10 just have to get into the bloodstream to be effective?

A. There are some important distinctions among CoQ10 products, as they vary greatly in quality and absorbability. It’s crucial to find a CoQ10 product that’s:

 

1. Scientifically shown to absorb through the digestive tract, cross cellular membranes, and increase mitochondrial levels of CoQ10. Chewable forms of CoQ10 provide rapid bioavailability and absorption. Serum level determination of CoQ10 in the bloodstream is not necessarily the most important measure of efficacy. For a CoQ10 supplement to be fully effective, it must cross the cellular barrier and raise Intracellular CoQ10 levels. A key indicator of effective CoQ10 supplementation is its presence in cell mitochondria.

 

2. The natural form of CoQ10. The natural process uses living organisms. CoQ10 also can be synthesized by a chemical process, which produces a distinctly different product that contains chemical compounds not found in the natural form.

 

3. Formulated with ingredients that provide the transport system CoQ10 needs to cross cellular membranes and the blood-brain barrier. Not all forms of CoQ10 have been scientifically proven to cross cell membranes and the blood-brain barrier. Some prestigious groups that have investigated this issue include researchers at Massachusetts General Hospital and Harvard Medical School.

 

4. Studied by respected organizations, with research published in peer-reviewed journals by reputable scientists.

 

Q. How much CoQ10 should I take?

A. Take 100 to 200 mg of CoQ10 daily, depending on your family history of heart disease and personal heart disease experience.

 

CoQ10’s safety has been evaluated. Dosages in studies have ranged from 100 mg to 1,200 mg per day. To date, no toxicities have been reported. Occasional mild stomach upset may occur. Taking CoQ10 with meals usually alleviates this rare effect.

 

Q. What are some other heart-friendly supplements?

A. CoQ10 is an excellent supplement for overall cardiovascular health, as in L-carnitine. L-carnitine is the naturally occurring form of carnitine that’s found in food and synthesized in the body. Much of the body’s L-carnitine is found in the heart and skeletal muscle, tissues that rely on fatty acid oxidation for most of their energy. Nearly 70% of the energy needed for heart function is derived from fatty acid breakdown. Proper L-carnitine supplementation transports fatty acids into cell mitochondria, where it’s burned for energy. L-carnitine is an excellent addition to CoQ10, especially for people with heart disease, and has been shown to improve many symptoms associated with CVD. In one study, people who had experienced one heart attack received either L-carnitine or placebo. The L-carnitine group had a statistically significant reduction in second heart attacks, and improved overall survival.

 

Q. What supplements support healthy blood pressure and cholesterol?

A. In addition to maintaining overall cardiovascular health, it’s also important to address your essential fats/lipids levels and healthy circulation/blood pressure. Fish oil supplements can significantly reduce blood pressure, cholesterol, and homocysteine levels. Choose a supplement that’s a rich source of EPA and DHA, omega-3 fatty acids naturally obtainable in fish oil. Find a product that’s been clinically studied and purified to ensure it contains the beneficial active constituents of the whole oil, while removing any dioxins, DDT, PCBs, or heavy metals, toxins present in some commercial fish oil preparations. An enteric-coated garlic product that provides a minimum of 5,000 mcg of beneficial allicin supports healthy blood pressure and circulation. And magnesium, niacin, vitamin E, folic acid, hawthorn extract, and L-cysteine provide overall nutritional support to the heart and vascular system.

 

Conclusion

CoQ10 is not the only answer to the complex issues of heart disease, neurological disease, or immune dysfunction; however, research indicates that it’s a bigger piece of the puzzle than physicians and scientists ever imagined. The more we study this naturally occurring compound, the more benefits we find.

The key to this supplement is the manufacturing quality. For safety and overall effectiveness, use a CoQ10 product that’s supported by product-specific research from reputable institutions. Choose tested products from a well-respected company to increase your potential to achieve and maintain heart and blood vessel health.

Supplementation with clinically studied products can have a major impact on your heart’s health and strength. However, no supplement replaces the need to eat a healthful diet low in refined foods (especially sugar), and saturated fats, and to exercise your most important muscle – your heart – on a regular basis.

 

 



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Neurological Health and CoQ10
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Date: February 25, 2007 12:06 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Neurological Health and CoQ10

Between 1946 and 1965, 78 million Americans were born, creating the largest number of children in U.S. history. This Baby Boom generation has greatly influenced the makeup of American society and undoubtedly w ill continue to do so. Thanks to good nutrition and health care, Baby Boomers are aging well and have an excellent life expectancy. For the first time in history, we have more people turning 60 every day, and record numbers of adults reaching their seventh decade. As a result, neurological diseases associated with aging, such as Parkinson’s disease, are becoming major health care concerns. The good news is CoQ10 has applications for neurological diseases, in addition to its better known use for cardiovascular diseases.

Q. What is CoQ10?

A. CoQ10 is a natural, fat-soluble nutrient present in virtually all cells. CoQ10 also is known as ubiquinone (existing everywhere there is human life). CoQ10 is vital to the production of adenosine triphosphate (ATP). ATP is the energy-rich compound used for all energy-requiring processes in the body.

Q. Isn’t CoQ10 a supplement for heart health?

A. Yes, it is. Because the heart requires lots of ATP to meet its high energy needs, CoQ10’s function in heart health is well understood. Numerous clinical studies have demonstrated that when individuals with heart disease take CoQ10, their symptoms improve, sometimes quite dramatically. Supplemental CoQ10 improves the heart’s pumping ability, improves blood circulation, increases tolerance to exercise, and improves the heart’s muscle tone. CoQ10 also is a powerful antioxidant and protects heart tissue from free-radical damage.

Q. How does CoQ10 affect brain health?

A. CoQ10 works in the brain the same way it works elsewhere in the body: it’s essential to ATP production. Nearly all human cells contain tiny structures called mitochondria. Mitochondria are referred to as cell powerhouses because they produce cellular energy. Depending on what each cell’s job is. There can be several thousand mitochondria in one cell. If a cell needs a lot of energy, it will have more mitochondria. This explains why heart cells contain so many mitochondria; the continual pumping of blood requires continual ATP production.

The brain also requires huge amounts of uninterrupted energy to regulate, integrate, and coordinate ongoing nervous system transmissions. To meet this need, ATP production within the mitochondria of brain cells is vital. Since CoQ10 exerts such a powerful influence on heart cells in ATP production, it was a natural progression for scientists to wonder how it affects brain cells. Brain and nervous system research led to the conclusion that the same Intracellular principles apply. CoQ10 is produced in the body to assist in ATP production. Without it, ATP cannot be produced.

The most important discovery regarding CoQ10 and the brain is that CoQ10, when formulated with certain ingredients, can cross the blood-brain barrier and enter the brain’s mitochondria. If large amounts of CoQ10 can get into the brain cell’s mitochondria, its ability to make ATP is greatly enhanced.

Q. What is the blood-brain barrier and why is it important?

A. The blood-brain barrier is a unique anatomical structure. The cells that make up the blood vessels that provide blood to the brain are extremely close together. This greatly restricts what can leave the bloodstream and enter the brain. While the blood-brain barrier protects the brain and spinal cord from potentially toxic substances, it also can be a significant obstacle to therapy of central nervous system disorders. Only substances with certain solubilities or those that have a transport system can cross the blood-brain barrier to a significant degree.

Obtaining optimal absorption of CoQ10 is difficult. The CoQ10 molecule is large and inflexible. The easiest and least expensive way to increase absorption levels is with the use of harsh solvents such as propylene glycol. However, at higher doses, these types of chemicals are considered dangerous (neurotoxic) to the person with a serious neurodegenerative disease. It is more difficult, as well as more expensive (considering raw materials, research, and proper manufacturing methods) to promote absorption with less harmful alternatives. However, reputable companies ensure that their products are safe for all their customers. Look for CoQ10 products formulated with vitamin E and other safe ingredients such as Micosolle.

Nearly all CoQ10 supplements enter the bloodstream. But, only CoQ10 supplements with special formulations have been scientifically shown to enter the mitochondria and cross the blood-brain barrier.

Q. If CoQ10 is made in the body, why take supplements?

A. While CoQ10 is synthesized in the body, these levels may be insufficient to meet the body’s requirements. Researchers have discovered CoQ10 levels diminish with age and as a result of dietary inadequacies and various disease states. They also have determined some medications significantly reduce CoQ10 levels in the body.

Although CoQ10 exists in some dietary sources, it may not be realistic to obtain CoQ10 through food alone. For example, it would take approximately 3 pounds of sardines, 7 pounds of beef, or 8 pounds of peanuts to equal 100 mg of supplemental CoQ10.

Q. How does CoQ10 help people with Parkinson’s disease?

A. CoQ10 seems to have several beneficial actions in the illness. Researchers have looked at mitochondria in brain cells and determined people with Parkinson’s disease have reduced activity of Complex I in the electron transport chain. Recent research has proposed the reduced activity of Complex I interferes with the brain-signaling chemical dopamine. Stored and newly synthesized dopamine is depleted. The dopamine depletion causes nerve cell degeneration.

A recent clinical study involved 80 patients with Parkinson’s disease (both men and women). The researchers first evaluated all the participants to establish scores for basic motor skills (measuring the ability to control physical movements such as walking), mental status (whether the person was depressed or experiencing memory loss) and the activities of daily living (whether the person was experiencing difficulty with handwriting, dressing themselves, using utensils such as knives and forks, and so on). This scale is known as the Unified Parkinson’s Disease Rating Scale (UPDRS). This process is known as establishing “baseline values,” that is, the condition of the patient before receiving any treatment.

Participants were divided into 4 groups. Each group received either 300 mg, 600 mg, or 1200 mg of the special form of CoQ10, or a placebo. The researchers observed the participants for 16 months.

The results of the study showed that all the participants who received CoQ10 had smaller declines in function compared to the placebo group, but the smallest decline was experienced by the group taking the highest amount of the special form of CoQ10.

The most significant results were noted specifically in the activities of daily living scores by the people taking 1200 mg of CoQ10 daily. These people retained better ability to feed and dress themselves, speak, walk, and bathe or shower by themselves. They maintained greater independence for a longer time. Parkinson’s disease, as with other neurodegenerative diseases, robs the sufferer of their ability to control the movements of their own body and care for themselves. Supplementation with CoQ10, while not a cure, is the first intervention that showed a slowing in the progressive deterioration of the function associated with this disease.

Q. What were the results of clinical research on Huntington’s Disease?

A. A randomized, double-blind, placebo controlled study respected type of study, was conducted at the University of Rochester. All of the 347 Huntington’s disease (HD) patients were experiencing some HD symptoms, but were still in the early stages of the disease. The patients (who did not know which drug they were receiving) were randomly assigned to four different treatment groups: 25 percent received Remacemide, 25 percent received CoQ10, 25 percent received both, and 25 percent received a placebo, or sugar pill. The researchers, who also did not know which patients got which drug, watched and recorded their progress for two and one-half years. Remacemide is a new drug made by Astra Seneca that blocks the neurotransmitter glutamate in the brain, that has long been suspected of contributing to the death of brain cells in Huntington’s disease.

Unfortunately, in the CARE-HD study, Remacemide had no effect on the progression of the disease in patients in the early stages. However, the individuals who received 600 mg of CoQ10 per day experienced some slowing of the disease progression. They were able to manage daily activities, such as meal preparation, housekeeping tasks, and personal care longer than those not on CoQ10. They were also able to focus their attention better and were less depressed and irritable. The portion of the studied patients receiving 600 mg of CoQ10 per day experienced a 15 percent decline in the progression of HD. According to the researchers conducting the study, a 15 percent decline in the progression of HD would roughly translate into approximately one more year of independence for patients. This is the very first study from more than a dozen Huntington’s disease patient trails that showed any modification of the course of the illness.

Of note, the effects of the CoQ10 had not abated at the end of the research study. That is, the benefit of using CoQ10, 600 mg per day, was still increasing; this suggests that the longer a patient supplements with CoQ10, the greater the decline in the progression of HD. The next phase of the CARE-HD research will test a higher dose of CoQ10 (1200 mg or more per day), with more patients (over 1000), for a longer period of time (approximately 5 years). This study should improve our understanding of the optimal dose and the total achievable decline in the progression of HD. The CoQ10 product used in the CARE-HD study was designated an Orphan Drug by the FDA. The product utilizes a proprietary, patent-pending delivery mechanism, which is proven to be safe and tolerable at high doses for people suffering from neurodegenerative diseases, substantially improving brain tissue levels of CoQ10.

Q. What other diseases could benefit from CoQ10 supplementation?

A. Studies show CoQ10 levels are greatly reduced in Alzheimer’s patients. Mitochondrial abnormalities also are noted; however, research has yet to determine how or why this occurs. Some scientists believe damage to mitochondria is an early feature of the disease. Free-radical damage also is a feature of Alzheimer’s.

In a study of 27 Alzheimer’s patients, subjects were given 60 mg of CoQ10, 150 mg of iron, and 180 mg of vitamin B6 daily. Each patient’s mitochondria activity was effectively activated. All patients continued to experience gradual decline. However, researchers believed that with this combination, the progression was much slower and allowed the patients to experience 1 to 2 years of extended good health.

ALS (also known as Lou Gehrig’s disease) is a progressive, fatal, neurological disease. It occurs when the nerve cells in the brain that control voluntary movement gradually degenerate. Investigation of CoQ10 in individuals with ALS is just beginning. Researchers at the Eleanor and Lou Gehrig ALS Center at Columbia University recently conducted a small clinical pilot trial of CoQ10 in ALS. The study was an open label study, which meant that everyone enrolled received CoQ10, 400 mg three times per day. Of the 16 patients originally enrolled, nine patients completed the study. Six of these nine patients experienced some benefits. The patients declined from 0 – 25 percent in functional scores, 6 percent in strength, and 10 percent in breathing ability. These scores reflect a positive trend compared to the 50 percent decline that is seen in the natural history of ALS over the same period of time (5 to 9 months). Citing the need to conduct more studies of the effectiveness of CoQ10 for people with ALS is rapidly and efficiently as possible to get answers to patients and clinicians, another clinical trial is currently underway at the Gehrig ALS Center. This is a pilot study to determine if CoQ10 has short-term effects on motor nerves in the brain using magnetic resonance spectroscopy (MRS). The researchers are going to try to “see” if CoQ10 can change the chemical sin the brain’s upper motor nerves of people with ALS, an important next step of the investigation.

Q. Can taking CoQ10 prevent neurodegenerative disease?

A. To date, there have been no studies or research examining whether CoQ10 can prevent these diseases.

Alzheimer’s disease prevention is being clinically investigated. Researchers have determined that people who take certain anti-inflammatory medications seem less likely to develop the illness. A large, multi-centered trial is studying this connection.

Q. How much CoQ10 should I take?

A. Depending on your family history of neurological disease and your disease experience, studies show benefits at doses of 100 to 200 mg of CoQ10 daily. Some studies used doses of up to 1,200 mg per day.

CoQ10’s safety has been evaluated. To date, no toxicities have been reported. Mild stomach upset may occur. Taking CoQ10 with meals usually alleviates this rare effect.

Q. What should I look for in a CoQ10 supplement?

A. Use products which have a strong clinical research track record, supported by product-specific research from reputable institutions, and have been proven to be safe, tolerable and effective in treatment of neurodegenerative diseases. The CoQ10 product you choose should be proven to: be absorbed, enter the blood stream, cross the blood brain barrier and increase mitochondrial levels of CoQ10. If the product you are considering does not have evidence to support these points, keep looking. Once you have found a candidate, examine the product’s safety and efficacy record for neurodegenerative diseases- if the product has not been proven to be safe and effective, keep looking. Good products exist; however, caveat emptor.

Conclusion

CoQ10 supplementation for people with neurodegenerative diseases is supported by contemporary clinical research. CoQ10 is certainly not the only answer to the complex issues of management and treatment of these types of diseases. However, research indicates that it is a bigger piece of the puzzle than physicians and scientists ever imagined. As we continue to study this naturally occurring compound, we are finding more and more benefits to the body.

All CoQ10 is not created equal. For safety and overall effectiveness, use a CoQ10 product that is supported by product-specific research from reputable institution, which is proven to be safe, tolerable and effective at high doses; deviating from this set of criteria may do more harm than good for people with these serious illnesses. Choose clinically tested products from a well-respected company and increase the potential to achieve and maintain brain and neurological health.



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Which Calcium is Best?
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Date: October 17, 2006 03:52 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Which Calcium is Best?

Customers walking into a health food store today are faced with a vast array of calcium supplements. They might ask: which one should I pick? Which one is best? Not easy questions to answer. All calcium forms will accomplish the same task: providing your body with a nutrient that it needs to build healthy bones and teeth; however, which form of calcium has the features that you want in a calcium supplement? Looking at shelves of calcium products is kind of like shopping for a car; there are many makes and many models—some are basic and others are more sophisticated.

Fortunately, there are many forms of calcium to satisfy your needs. Like the car lot, a health food store offers many options; therefore, you have to select a calcium product that consumers will feel confident in taking regularly and that will provide the most benefit.

Some consumers have done research and will come armed with information. They have already made choices based on advertising, word-of-mouth or an article they have read. They already know the form of calcium they want, be it a “Ferrari” or a “Ford.” If the client doesn’t have a specific preference: asking these basic questions will help in the selection process:

1. Do you prefer tablets, capsules, softgels, liquid or powder?

  • Tablets are for consumers who want high dosage in fewer pills.
  • Capsules are flavorless and may be easier to swallow than tablets for some.
  • Softgels have a slicker surface and may slide down the throat more easily for some.
  • Liquids are easiest to swallow and are available in different flavors.
  • Powders are flavorless, versatile and can be mixed with food or beverages.

2. Do you have high or low stomach acid?

  • Should you use calcium that has buffering action or a calcium that does not further reduce your stomach acid.

3. Do you have absorption issues?

  • Rapid transit time in the bowels may affect a person’s choice of calcium.

What is calcium?

Calcium (Ca) is one of the most important minerals found in our bones and teeth—99 percent of body calcium is found there. But the calcium molecule does not like to travel alone and, in its more basic state, it comes bounded to carbon (C), Oxygen (O), and/or hydrogen (H) molecules or in more complex form, it is bonded to organic or amino acids that act as stabilizing carriers. On most labels, the amount of calcium listed actually indicates the pure or elemental calcium because it is that amount of the calcium that is deemed important to our daily supplementation, not the complex of the materials with which it is bonded.

Where does calcium come from?

Other than the calcium found in bone, the only natural form of calcium found in nature is calcium carbonate, a calcium molecule bonded to one molecule of carbon and three molecules of oxygen (CaCO3). One of the most common minerals on the face of the earth, calcium carbonate is called calcite, aragonite or vaterite by geologists. In its geological form, it constitutes approximately four percent, by weight, or the earth’s crust.

Commercial sources of calcium carbonate used to make supplements are: limestone, dolomite, oyster cell, egg shell, coral and sea water (have you ever seen that white deposit left by hard water? That’s mostly calcium carbonate). Calcium carbonate is the starting material for all other forms of calcium supplements. From this starting material, calcium can be reduced to more concentrated forms, such as oxide or hydroxide or it can be chelated (bonded) to organic acids and amino acids to help support enhanced absorption.

Lets look more closely at the different forms of calcium that are available as supplements.

Calcium Oxide (CaO): this form is 71 percent elemental calcium and is also called “lime” commercially. This is one of the oldest and most inexpensive forms of calcium used in a variety of commercial applications and it is occasionally used in supplements where space and price are a factor. It sometimes can be found in inexpensive mass market calcium/mineral combinations or multivitamin/mineral products and in a unique algal calcium from Japan. Unfortunately, CaO is a strong alkali that may cause stomach distress, which is why it isn’t often used in health food supplements.

Calcium Hydroxide (CaHO): at 54 percent elemental calcium, it is the next highest source of elemental calcium and is also known commercially as “slaked lime.” It is used where space is an issue. Although it is also a strong alkali, it is more stable than calcium oxide. It is most often used as a component of multi-mineral formulations or in addition to other forms of calcium (i.e., calcium citrate) to provide potency where space is an issue. It is not often used as a single ingredient in health food supplementation. This is for people who want a high dosage of calcium from a minimum amount of pills in multi-mineral formulas.

Calcium Carbonate (CaCO3): at 40 percent elemental calcium, it is the most widely used form of calcium in single ingredient calcium supplements as well as combination supplements. Inexpensive and an abundant source of elemental calcium, it is the only form of calcium found in nature outside of bone. It is the primary form of calcium used in the mass market and in antacid products. This is for people who have high stomach acid and who need a buffering type of calcium. Also for people who want a high dose of calcium in a minimum amount of pills.

Calcium Citrate: at 21 percent elemental calcium, it is one of the most popular forms of calcium supplements in the health food market as well as the mass market. This calcium salt does not lower stomach acid as much as calcium carbonate. This calcium salt is usually recommended for people who have low stomach acid, have had stomach surgery or who need a form of calcium that will not lower their stomach acid further.

Calcium Gluconate and Lactate: these two forms of calcium are high soluble. Since the amount of elemental calcium is much lower (9 percent and 13 percent respectively), they are used more often in powder form and mixed with liquids or food. When mixed in a beverage, the calcium is already dissolved and is ready to be absorbed. This is the best calcium salt for people who have overactive bowels, who have trouble swallowing pills or who don’t like the taste of pre-formed liquid calcium supplements. These calcium powders can be mixed in juices or smoothies or added to food as they are virtually tasteless.

Calcium Orotate and Asporotate: In the mid 20th century, Dr. Hans Nieper, a German scientist, advanced a theory that orotic and aspartic salt forms of calcium are transported directly to cell membranes for better absorption. The Solaray brand developed an asporotate formula, which combines three organic acids: aspartic acid (-Asp), orotic acid (-oro) and citric acid (-tate) into one product. The asporotate formula has become one of the most popular calcium formulas and is exclusive to the Solaray brand. This product is for customers who appreciate the idea of combining the enhanced absorbability of three organic acids into one. Aspartate and citrate are also part of the krebs (energy) cycle and are natural to the body’s metabolic systems and, according to Neiper, calcium Orotate and Aspartate are mineral transporters that enter into the cells to facilitate enzymatic actions rather than being extra-cellular. For people who believe that Intracellular calcium is of importance, calcium Orotate and asporotate may be good choice.

Calcium Hydroxyapatite: this is another “natural form of calcium usually as a mineral ash form bovine source bone. Bone meal is also a form of calcium from bovine bone. These forms of animal derived calcium are for customers who want a source that is closest to their own bone matrix. Not for vegetarians.

Calcium Amino Acid Chelates (*HVP): this form is calcium carbonate bonded (Chelated) to a form of amino acid complex such as whole rice concentrate or other grain source. This form is for customers who want the additional bioavailability of amino acids.

Calcium AEP: Another form of calcium endorsed by Dr. Hans Nieper who theorized that calcium would cross the cell membranes more readily when it was combined with phosphatidyl ethanolamine or Amino Ethanol Phosphate (AEP), a nutrient found in nerve sheaths. This highly specialized form is for very educated customers who are proponets of Hans Niepers theory.

So, which form is best?

Calcium, like cars, comes in a variety of forms. Isn’t it wonderful that we have so many choices? The point is, there is no best one, there are only individual choices. Although we have our favorites, taking a calcium supplement, regardless of which one it is, should:

  • Be a matter of personal choice based on how our body feels when taking it.
  • Be in a form that is most convenient or appetizing so that we receive our daily requirements.
  • Take into consideration any personal body limitations we might have .

Our primary concern when choosing a calcium supplement should be to provide our body with the right amount of calcium daily so that our skeleton and teeth can maintain proper mineralization and strength as the cells continuously break down and rebuild. The type of calcium complex we prefer is entirely up to us.

*HVP = Hydrolyzed Vegetable Protein



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Vitamin B-1, C prove Worthy Complementary Therapies
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Date: March 31, 2006 06:30 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Vitamin B-1, C prove Worthy Complementary Therapies

An increasing number of healthcare experts are calling for conventional and alternative treatments to be used together, an idea supported by a growing body of research. For example, British scientists found that taking one gram of supplemental vitamin C a day for 10 weeks helped 92 adults with asthma reduce the medication they needed for symptom control (respiratory Medicine 2006; 100:174-9). Inhaled asthma drugs have been associated with severe side effects, such as bone loss, cataracts and suppressed immunity. Increasing Vitamin Intake (in this case B-1) may also prove vital to people undergoing gastric bypass surgery, an increasingly common option for obesity. The December 27, 2005 issue of Neurology reported on a 35-year-old woman who suffered numerous difficulties after gastric bypass, including fatigue, confusion and an inability to coordinate eye movement. Her condition improved after she received 100mg of Intravenous B-1 every eight hours.

Other supplement news:

Substance abuse –and the problems it causes-may be amenable to supplementation. At a meeting of American College of Neuropsychopharmacology (12/5), researchers claimed that hospitalized cocaine addicts experienced reduced desire for the drug after taking the supplement NAC (N-acetylcysteine); they said more study is needed. In another investigation presented at the same meeting, fish oil helped reduce anger among male substance abusers, possibly reducing the risk of aggressive behavior.

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Benefits of L-Carnitine
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Date: February 12, 2006 03:24 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Benefits of L-Carnitine

Benefits

Helps the body burn fat for energy*

L-Carnitine promotes energy production in cells by transporting fatty acids into the mitochondrion. Its primary function is to transfer long-chain fatty acids across the inner mitochondrial membrane. Fatty acid molecules are activated to coenzyme A (CoA) esters in the cytoplasm of the cell, and then esterified to L-Carnitine. The combination of a fatty acid molecule and L-Carnitine is called “acyl-carnitine.” Much of the body's L-Carnitine content is stored in the form of acyl-carnitine.1

The mitochondrion is the cell’s energy-generating furnace. Called an “organelle,” the mitochondrion is a self-contained structure inside the cell. Like all cellular structures, the mitochondrion is surrounded by a membrane. This membrane is an impenetrable barrier to acyl-CoA esters; passage across the membrane requires L-Carnitine as a transporter. On the inside of the mitochondrial membrane, the acyl-CoA esters are made available to be metabolized through the process of beta oxidation. One of the key metabolic byproducts of this process is acetyl-CoA, also called “active acetate,” which enters the Krebs cycle (also known as the “citric acid cycle”) to supply fuel for production of ATP, the cell’s primary energy “currency.” L-Carnitine shuttles excess fatty acid residues out of the mitochondrion, and in this role is essential for preventing toxic buildup of fatty acids inside the mitochondrion.

Evidence suggests that L-Carnitine and short chain acyl-carnitine esters can protect the mitochondrion from adverse effects of drugs and toxic chemicals. L-Carnitine has been shown to protect animals form cardiotoxins and decrease mortality rate in animals with diphtheria, due to this cardioprotective effect.2

Helps maintain a healthy heart and cardiovascular system*

Muscle tissue contains a high concentration of L-Carnitine. With its constant energy needs, heart muscle tissue is especially rich in L-Carnitine. If the body’s ability to biosynthesize L-Carnitine is compromised, energy production in muscle tissue is impaired, and a toxic buildup of fatty acids can occur.3 Defective production of L-Carnitine by the body can result from a variety of factors, including kidney or liver malfunction, increased catabolism or the inability of tissues to extract and retain L-Carnitine from the blood.

Along with glucose and lactate, fatty acids are the primary oxidation fuel for the heart. A considerable amount of scientific data from animal experiments indicates that L-Carnitine protects the heart under conditions of hypoxia, or low oxygen. In addition to the oxidation of fat for energy in the cell, L-Carnitine is involved in the metabolism of glucose.4 Evidence of L-Carnitine’s role in glucose metabolism was uncovered in a small trial on 9 diabetic individuals. Given Intravenously, L-Carnitine improved insulin-mediated glucose utilization and insulin sensitivity.5

Depletion of the body’s L-Carnitine supply is linked to various abnormal states, especially of the heart muscle. The effect of L-Carnitine on hypoxic (oxygen-starved) isolated heart muscle tissue has been studied.6 At high concentrations, L-Carnitine demonstrates a clear-cut ability to potentiate the contractility of isolated heart muscle tissue, indicating the L-Carnitine has a strengthening effect on the heart. L-Carnitine has been shown to improve the performance of rats subjected to fatigue test.

Research has revealed that in animals and humans with defective heart muscle, the amount of free L-Carnitine (not bound to fatty acids) is reduced. Administration of L-Carnitine to hamsters prevents damage to the heart muscle. Given to humans with angina, L-Carnitine was found to improve exercise tolerance. In a small study, patients with congestive heart failure showed gains in heart function with oral consumption of L-Carnitine, reportedly by restoring normal oxidation of fatty acids.7 In heart valve replacement patients, L-Carnitine has been shown to increase the valve tissue levels of ATP, pyruvate and creatine phosphate, which are key cellular energy substrates. In a controlled study, L-Carnitine was administered to 38 patients prior to open heart surgery. Prior to surgery, heart circulatory function, as assessed by measurements of hemodynamics, was “good” in all 38. While there was evidence of a “preserving” effect of L-Carnitine on heart cells, no differences in cardiac performance were observed. These results suggest that noticeable improvements in heart muscle performance with L-Carnitine are most likely to occur in people with compromised hearts.8

It has been suggested that L-Carnitine favorably influences blood lipids. Preliminary evidence of this was seen in a small open trial on 26 patients who took 3 grams of L-Carnitine daily for 40 days. Blood levels of cholesterol and triglycerides dropped substantially, while the ratio of total to HDL cholesterol–– a known marker of cardiovascular health––markedly improved.9

While L-Carnitine is not a treatment for heart disease, (nor should it be used as a substitute for medical treatment) the results of these and other studies suggest that oral consumption of L-Carnitine has a beneficial influence on maintaining a healthy heart and cardiovascular system.



Safety

Suggested Adult Use: Take 1 to 4 capsules daily without food.

L-Carnitine is considered to be very safe for oral consumption. L-Carnitine is generally well tolerated, even at doses as high as 15 grams daily. Toxicity or overdosage has not been reported.10



Scientific References
1. Wagenmakers, A. L-Carnitine supplementation and performance in man. Brouns, F. ed. Advances in Nutrition and Top Sport. Med Sport Sci. Basel, Karger, 1991;32:110-27.
2. Arrigoni-Martelli, E., Caso, V. Carnitine protects mitochondria and removes toxic acyls from xenobiotics. Drugs Exptl. Clin. Res. 2001;27(1):27-49)
3. Pepine, C.J. The therapeutic potential of carnitine in cardiovascular disorders. Clinical Therapeutics 1991;13(1):2-21.
4. Calvani, M., Reda, E., Arrigoni-Martelli, E. Regulation by carnitine of myocardial fatty acid and carbohydrate metabolism under normal and pathological conditions. Basic Research in Cardiology 2000;95(2):75-83.
5. Capaldo, B. et al. Carnitine improves peripheral glucose disposal in non-insulin-dependent diabetic patients. Diabetes Research and Clinical Practice 1991;14:191-96.
6. Fanelli, O. Carnitine and acetyl-carnitine, natural substances endowed with interesting pharmacological properties. Life Sciences 1978;23:2563-2570.
7. Kobayashi, A., Masumura, Y., Yamazaki, N. L-Carnitine treatment for congestive heart failure-experimental and clinical study. Japanese Circulation Journal 1992;56:86-94.
8. Pastoris, O. et al. Effect of L-Carnitine on myocardial metabolism: results of a balanced, placebo-controlled, double-blind study in patients undergoing heart surgery. Pharmacological Research 1998;37(2):115-22.
9. Pola, P. et al. Carnitine in the therapy of dyslipidemic patients. Current Therapeutic Research 1980;27(2):208-16.
10. L-Carnitine. PDR for Nutritional Supplements. First Ed. 2001.Montvale, NJ:Medical Economics.



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Benefits of Best Alpha Lipoic 35!
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Date: February 12, 2006 03:11 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Benefits of Best Alpha Lipoic 35!

Benefits

Supports the Body’s Defense Against Free Radicals*

Recycles Antioxidant Nutrients such as Vitamin C and Vitamin E*
Helps Maintain a Healthy Blood Sugar Level when used as part of the diet*

Alpha-lipoic Acid––the "Ideal Antioxidant"
The antioxidant potential of a substance is based on a number of criteria, including:
1) Ability to quench specific free-radicals.
2) Ability to bind or "chelate" metal ions that can generate free radicals.
3) Supports function of other antioxidants.
4) Absorption/bioavailability.
5) Concentration in tissues, cells and extra cellular fluids.
6) Ability to function as an antioxidant in fatty and watery environments.


The "ideal antioxidant" would meet all the above criteria. Very few antioxidants do, yet a particular antioxidant with but a few of the characteristics is still valuable and effective. Vitamin E, for example, is one of the most important dietary antioxidants, yet it only works in fatty environments such as cell membranes.

As a team, ALA and DHLA come close to the ideal, for the following reasons:1,2,3
1) ALA is easily absorbed when consumed orally.
2) ALA is readily converted to DHLA in various tissues.
3) As a pair, ALA and DHLA neutralize superoxide, hydroxyl, peroxyl, and hypochlorus radicals.
4) ALA and DHLA form stable complexes with metal ions such as iron, manganese, copper and zinc ions.
5) ALA and DHLA scavenge free radicals in fatty environments and watery environments.
6) DHLA recycles other important antioxidants.


DHLA-regenerates vitamin C, vitamin E and glutathione

Within the cell, antioxidants work as a team to keep free radicals from damaging cell structures. In order to neutralize a free radical, an antioxidant such as vitamin C must give up an electron, which mean it becomes oxidized. Before it can function as an antioxidant once again, it must be regenerated back to its "reduced" form, by gaining an electron to replace the donated electron. For this, it needs the help of other antioxidants. Vitamin C, vitamin E and glutathione are key antioxidants that can be generated by cycling between their oxidized and reduce forms. This is necessary to maintain the balance between oxidation and its reverse––the neutralization of free radicals by antioxidants.

DHLA is an essential component in the interaction between these antioxidants.4 Studies show that addition of alpha-lipoic acid to liver tissues results in increased vitamin C levels. It has been found that DHLA is responsible for regenerating vitamin C, which in turn regenerates vitamin E.3 DHLA also converts glutathione from its oxidized form back into its free radical scavenging reduced form.3,5 The ALA/DHLA pair is thus vital for prevention of "oxidative stress," which occurs which the balance is tipped in favor of oxidation in cells.4 DHLA helps preserve antioxidants in both the watery cell interior and the fatty structure of cell membranes.6 Evidence from animal studies suggests that DHLA protects the brain against free radical damage.7

Alpha-lipoic Acid and Blood Sugar

Alpha-lipoic acid is a key factor in the cellular process that metabolizes glucose to produce energy for cellular functions. The importance of ALA’s role in blood sugar metabolism is evidenced in studies on ALA and type-2 diabetes. In a small pilot study, 13 people with type-2 diabetes showed improved utilization of glucose in muscle tissue in response to Intravenous administration of ALA.8 In a four week controlled multicenter trial, 74 people with type-2 diabetes took ALA in oral doses of 600, 1200 or 1800 mg per day. After 4 weeks, the normal lowering of blood sugar levels in response to insulin improved.9 In vitro studies have shown that ALA has a positive effect on insulin-stimulated uptake of glucose by muscle cells.10



Safety

Suggested Adult Use: One to six capsules daily with food.

Alpha-lipoic acid is considered safe, and no adverse effects have been seen with long-term supplementation.1

Scientific References
1. Packer, L.. Witt, E., Tritschler, H. Alpha-lipoic acid as a biological antioxidant. Free Radical Biology and Medicine 1995;19(2):227-50.
2. Suzuki, Y., et al. Thioctic acid and dihydrolipoic acid are novel antioxidants which interact with reactive oxygen species. Free Rad. Res. Comms. 15(5):255-63.
3. Biewenga, G., Haenen, G., Bast, A. The pharmacology of lipoic acid. Gen. Pharmac. 29(3):315-31.
4. Serbinova, E. Maitra, I., Packer, L. The synergy between vitamin E and alpha-lipoic acid--–possible relationship against oxidative stress in vivo. Life Chemistry Reports 1994;12:17-21.
5. Bast, A. Haenen, G. Interplay between lipoic acid and glutathione in the protection against microsomal lipid peroxidation. Biochimica et Biophysica Acta 1988; 963:558-561.
6. Kagan, V. et al. Dihydrolipoic acid––a universal antioxidant both in the membrane and in the aqueous phase. Reduction of peroxyl, ascorbyl and chromanoxyl radicals. Biochem Pharmacol 1992;44(8):1637.
7. Prehn, J. et al. Dihydrolipoate reduces neuronal injury after cerebral ischemia. J Cereb Blood Flow Metab 1992;12(1):78-87.
8. Jacob, S. et al. Enhancement of glucose disposal in patients with type-2 diabetes by alpha-lipoic acid. Arzneimittelforschung 1995;45(8):872-4.
9. Jacob, S et al. Oral administration of RAC-alpha-lipoic acid modulates insulin sensitivity in patients with type-2 diabetes mellitus: a placebo-controlled pilot trial. Free Radical Biology & Medicine 1999;27(3/4):309-14.
10. Estrada, D. et al. Stimulation of glucose uptake by the natural coenzyme alpha-lipoic acid/thioctic acid: participation of elements of the insulin signaling pathway. Diabetes 1996;45(12):1798-804.


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Benefits of Acetyl-L-Carnitine
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Date: February 12, 2006 01:55 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Benefits of Acetyl-L-Carnitine

Benefits

Supports cognitive function*

ALC has been studied for its effect on cognitive performance and emotional health in the elderly. In a single-blind, placebo-controlled trial, 481 elderly subjects exhibiting mild memory impairment improved their scores on a memory test after taking 1500 mg of ALC a day for 90 days.2 Hospitalized elderly people taking ALC have shown improvements in mental outlook.3 While ALC is not a treatment or cure for Alzheimer's disease, double-blind studies suggest it may help slow the rate at which early-stage Alzheimer's patients deteriorate.4 In particular, ALC seems to benefit short-term memory in these patients.5

Supports biosynthesis of acetylcholine, a key neurotransmitter for brain and nerve function* Brain function requires coordinated communication between brain cells. Brain and nerve cells ("neurons") communicate across tiny cell-to-cell gaps called "synapses." The passage of an electrical impulse from one neuron to the next requires a "neurotransmitter." When an electrical signal arrives at the synaptic junction, the neuron releases a neurotransmitter into the synapse. The neuron on the other side of the synapse contains receptors for the neurotransmitter; these receptors bind the neurotransmitter, triggering a series of chemical events that sends a new electrical signal down the membrane of the receiving neuron. Neurotransmitters work together like an orchestra to transmit information throughout the brain and nervous system. Acetylcholine is the most abundant neurotransmitter in the body, regulating activities of vital organs, blood vessels and communication between nerves and muscles. In the brain, acetylcholine helps facilitate memory and learning as well as influence emotions. ALC is structurally similar to acetylcholine, and brain neurons stimulated by acetylcholine are receptive to stimulation by ALC.6 It has been shown experimentally that ALC supplies acetyl groups for the biosynthesis of acetylcholine.7 ALC's hypothesized cholinomimetic (acts like acetylcholine) activity has led researchers to investigate its effects on mental function and emotional health.8

Helps supply the brain with energy by improving energetics in the mitochondrion*

The acetyl groups donated by ALC can be used to synthesize acetyl-CoA, the key substrate for energy metabolism in the mitochondrion. 9 Acetyl-CoA enters the Krebs cycle, the mitochondrial mechanism that generates cellular energy in the form of ATP. ALC easily crosses the blood-brain barrier, allowing it to play various roles in maintaining brain neuron (nerve cell) function. When given by oral administration, the concentration of ALC is increased in the blood and cerebrospinal fluid.10

Stabilizes Intracellular membranes*

ALC was found to improve membrane phospholipid metabolism in early-stage Alzheimer's patients.11 Phospholipids are structural components of brain cell membranes that regulate neuron function. ALC donates acetyl groups that can be used to modify the functional activity of proteins in neuronal membranes.12 ALC thus plays a role in maintaining membrane function. ALC also increases membrane stability and structural integrity.13

Increases nerve growth factor production*

The body produces various specialized proteins called "growth factors" which are essential to growth and repair of tissue. Nerve Growth Factor (NGF) protects neurons from death, prolonging survival of neurons in both the central and peripheral nervous systems. It is theorized that aging of the central nervous system is associated with a loss of NGF. ALC has shown the ability to reverse age-related decrease in the binding of NGF to its receptors in neuron membranes.14 Given to aged rats, ALC increases the level and utilization of NGF in the rats. ALC protects cholinergic neurons (nerve cells stimulated by acetylcholine) in rats from degeneration due to lack of NGF.15 These results, together with other data from animal studies, suggest that ALC positively influences NGF activity.16

Has a protective influence on brain neurons*

Several animal studies have revealed that ALC exerts a protective effect on neurons. In one experiment, brain cells from rats exposed to NMDA, a known neurotoxin, were protected by being simultaneously exposed to ALC.17 Rats injected with ALC were protected from mortality caused by the neurotoxin MPP+.18 ALC has been shown to raise levels of glutathione, a highly valuable antioxidant, in isolated mouse brain tissue.19 ALC prevents buildup of malondyhaldeyde, a marker of lipid peroxidation.20 ALC is also a chelator of iron, which can generate free radicals. It also reinforces antioxidant mechanisms in the brain.21 As a whole, data from test tube and animal studies, showing that ALC has a protective, restorative effect on brain neurons and neuronal energetic processes, suggest that ALC is an anti-aging nutrient for the brain. This hypothesis is supported by human studies demonstrating measurable benefits for brain function in elderly persons taking ALC by oral consumption.


Safety
Suggested Adult Use: 1 to 4 capsules daily.
ALC is considered safe and well-tolerated when consumed orally. ALC has been administered in doses as high as 3 grams per day for periods of two to six months, with no reports of serious side effects. Some patients have experienced occasional mild abdominal discomfort, nausea, skin rash, restlessness, vertigo and headache. The severity and incidence of these side effects are reported as minor.22

Scientific References
1. Pettegrew, JW, Levine, J, McClure, RJ. Acetyl-L-carnitine physical-chemical, metabolic, and therapeutic properties: relevance for its mode of action in Alzheimer's disease and geriatric depression. Molecular Psychiatry 2000;5:616-32.
2. Salvioli, G. Neri , M. L-acetylcarnitine treatment of mental decline in the elderly. Drugs Exptl. Clin. Res. 1994; 20(4):169-76.
3. Tempesta, E, et al. L-acetylcarnitine in depressed elderly subjects. A cross-over study vs. placebo. Drugs Exptl. Clin. Res. 1987;8(7):417-23.
4. Spagnoli, A et al. Long-term acetyl-L-carnitine treatment in Alzheimer's disease. Neurology 1991;41:1726-32.
5. Rai, G et al. Double-blind, placebo-controlled study of acetyl-L-carnitine in patients with Alzheimer's dementia. Curr. Med Res. Opin. 1990;11:638-47.
6. Falchetto, S, Kato, G, Provini, L. The action of carnitines on cortical neurons. Can J Physiol Pharmacol 1971; 49(1):1:7.
7. Dolezal, V., Tucek, S. Utilization of citrate, acetylcarnitine, acetate, pyruvate and glucose for the synthesis of acetylcholine in rat brain slices. J Neurochem 1981;36(4):1323.30.
8. Passeri, M, et al. Mental impairment in aging: selection of patients, methods of evaluation and therapeutic possibilities of acetyl-L-carnitine. Int. J. Clin. Pharm. Res. 1988;8(5):367-76.
9. Pettegrew, JW, Levine, J, McClure, RJ. Acetyl-L-carnitine physical-chemical, metabolic, and therapeutic properties: relevance for its mode of action in Alzheimer's disease and geriatric depression. Molecular Psychiatry 2000;5:616-32.
10. Parnetti, L, et al. Pharmacokinetics of IV and oral acetyl-L-carnitine in multiple dose regimen in patients with senile dementia of Alzheimer type. Eur. J. Clin Pharmacol 1992;42:89-93.
11. Pettegrew, JW, et al. Clinical and neurochemical effects of acetyl-L-carnitine in Alzheimer's disease. Neurobiology of Aging 1995;16(1):1-4.
12. Pettegrew, JW, Levine, J, McClure, RJ. Acetyl-L-carnitine physical-chemical, metabolic, and therapeutic properties: relevance for its mode of action in Alzheimer's disease and geriatric depression. Molecular Psychiatry 2000;5:616-32.
13. Arduni, A, et al. Effect of L-carnitine and acetyl-L-carnitine on the human erythrocyte membrane stability and deformability. Life Sci 1990;47(26):2395-2400.
14. Taglialatela, G, et al. Stimulation of nerve growth factor receptors in PC12 by acetyl-L-carnitine. Biochem Pharmacol 1992;44(3):577-85.
15. Taglialatela, G, et al. Acetyl-L-carnitine treatment increases nerve growth factor levels and choline acetyltransferase activity in the central nervous system of aged rats. Exp Gerontol 1994;29(1):55-56.
16. Pettegrew, JW, Levine, J, McClure, RJ. Acetyl-L-carnitine physical-chemical, metabolic, and therapeutic properties: relevance for its mode of action in Alzheimer's disease and geriatric depression. Molecular Psychiatry 2000;5:616-32.
17. Forloni, G, Angeretti, N, Smiroldo, S. Neuroprotective activity of acetyl-L-carnitine: studies in vitro. J Neurosci Res 1994;37(1):92-6.
18. Steffen, V, et al. Effect of Intraventricular injection of 1-methyl-4-phenylpyridinium: protection by acetyl-L-carnitine. Hum Exp Toxicol 1995;14(11):865-71.
19. Fariello, RG, et al. Systemic acetyl-L-carnitine elevates nigral levels of glutathione and GABA. Life Sci 1988;43(3):289-92.
20. Calvani, M, et al. Action of acetyl-L-carnitine in neurodegeneration and Alzheimer's disease. Ann Ny Acad Sci 1992;663:483-86.
21. Calvani, M, Carta, A. Clues to the mechanism of action of acetyl-L-carnitine in the central nervous system. Dementia 1991;2:1-6.
22. Zdanowicz, M. Acetyl-L-carnitine's healing potential. Continuing Education Module. New Hope Institute of Retailing. October, 2001.


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Coenzyme Q10 and Cardiovascular Health.
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Date: December 13, 2005 11:34 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Coenzyme Q10 and Cardiovascular Health.

CoQ10 is a vitamin-like compound that is produced naturally in the human body and is also found in most living organisms. It is also called ubiquinone, a combination of quinone, a type of coenzyme, and ubiquitous, meaning it exists everywhere in the human body. CoQ10 plays an important role in your body’s energy production and is an essential component of the mitochondria, where it helps to metabolize fats and carbohydrates and maintain cell membrane flexibility. CoQ10 is also involved in the production of several key enzymes that are used to create ATP, which is burned by your body for energy, and used in the energy transfer between mitochondria and cells. Without CoQ10, you would not be able to function!

CoQ10 is also an effective antioxidant that may beneficially affect the aging process. As we age, our body’s production of CoQ10 declines by as much as 80 percent. Because it is so important to energy production, and therefore life, researchers believe that this decline may be a factor in the effects of aging on the human body. Clinical trials on both animal and human subjects have revealed a marked decrease in CoQ10 levels in relation to a wide variety of diseases. As a free radical scavenger, CoQ10 inhibits lipid peroxidation – a normal aspect of the aging process that is implicated in certain agerelated diseases. Studies conducted in the last fifteen years suggest CoQ10 is important for maintaining healthy Intracellular activity, and some researchers have compared its efficiency to that of vitamin E, one of the most effective of all dietary antioxidants. Research has shown that CoQ10, along with glutathione and selenium, works to regenerate or recycle vitamin E after it’s capacity to fight radicals has been diminished, thereby allowing vitamin E to remain active as an antioxidant for a longer period of time in your body.

CoQ10 was first discovered by Dr. Frederick Crane of the University of Wisconsin in 1957. One year later, Professor Karl Folkers and others at Merck Inc. identified and recorded CoQ10’s chemical structure, and were the first to produce it through fermentation. Intermittent research led to its use in Japan for cardiac insufficiencies during the 1960’s. Dr. Folkers championed more intensive research into CoQ10’s role in cardiovascular health in 1972, after he and an Italian scientist, Gian Paolo Littarru, discovered that persons with cardiac insufficiencies had very low levels of CoQ10, and supplementation increased CoQ10 levels and positively affected heart health. Soon afterwards, the Japanese developed a method that allowed pure CoQ10 to be produced in quantities large enough for significant clinical trials. During the 1980’s this method was perfected in Japan, and medical technology finally allowed scientists to measure CoQ10 levels in blood and tissues, leading to a surge in further research. It was during this time that a Swedish researcher, Lars Ernster, drew attention to CoQ10’s role as a free radical-scavenging antioxidant. Today a multitude of research supports CoQ10’s health benefits.

As a result of the overwhelmingly positive reports from studies conducted since CoQ10’s discovery, the Japanese were the first to approve widespread use of CoQ10, granting market approval for it in 1974. From 1974 to 1982, CoQ10 use in Japan grew rapidly until it was one of the most widely used products in the Japanese pharmaceutical industry. It is still widely used today, and has a long history of safe use. In “An Introduction To Coenzyme Q10” by Peter H. Langsjoen, M.D., F.A.C.C., he lists the substantial amount of scientific evidence that supports CoQ10’s benefits. “Internationally, there have been at least nine placebo controlled studies on the treatment of heart disease with CoQ10: two in Japan, two in the United States, two in Italy, two in Germany, and one in Sweden. All nine of these studies have confirmed the effectiveness of CoQ10 as well as it’s remarkable safety. There have now been eight international symposia on the biomedical and clinical aspects of CoQ10 (from 1976 through 1993). These eight symposia comprised over 3000 papers presented by approximately 200 different physicians and scientists from 18 countries.”

“The majority of the clinical studies concerned the treatment of heart disease and were remarkably consistent in their conclusions: that treatment with CoQ10 significantly improved heart muscle function while producing no adverse effects or drug interactions.” There are many CoQ10 supplements on the market today, and it can be difficult to choose the best brand and dosage. CoQ10 is a fat-soluble substance, which means it is more easily absorbed and used by your body in the presence of fat. CoQ10 supplements that include lecithin or another dietary fat will be more effective, and CoQ10 in a softgel form should be in an oil base, usually soybean oil. The dosage most commonly used in research is 30 mg, but higher doses are optimal and may be required to maintain optimal levels as we age. Always remember to consult your health practitioner before taking dietary supplements if you have current health problems or are taking prescription medication.

Now Foods continues to be a leading supplier of high-quality, low cost CoQ10 products. In 1999 and 2003 NOW Foods CoQ10 was voted the best-selling brand in health food stores nationwide, earning the Vity Award from Vitamin Retailer magazine. NOW carries eight different effective potencies of CoQ10, ranging from 30mg to 400mg, in lonzenges, softgels, and vegetable capsules. Many of our formulas are complexed with other synergistic nutrients like vitamin E, selenium, lecithin, and hawthorn for greater absorption and efficiency.



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Super Cortisol Support Fact Sheet
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Date: December 08, 2005 07:04 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Super Cortisol Support Fact Sheet

Super Cortisol Support Fact Sheet

Neil E. Levin, CCN, DANLA 10/1/05

LIKELY USERS: People under a lot of stress; People who suffer from stress-related eating; People who may have metabolic syndrome (Syndrome X);

KEY INGREDIENTS: Relora®13, Rhodiola14-20, Reishi 21-24, Green Tea Extract25-32, Holy Basil, Ashwaganda, Banaba, Pantothenic Acid, Calcium Ascorbate, Magnesium, Lecithin, Chromium

MAIN PRODUCT FEATURES: NOW® Super Cortisol Support is an herbal and nutritional formula designed to support healthy adrenal function and maintain healthy cortisol levels. The adrenal glands help the body respond and adjust to stress generated from both internal and external forces. Under chronic stress, cortisol can be overproduced, resulting in weight gain and difficulty in managing healthy blood sugar levels. Super Cortisol Support combines adaptogenic herbs with Chromium, Corosolic Acid and Relora® to help the body manage the negative effects of stress such as abdominal obesity, overeating and low energy levels.

ADDITIONAL PRODUCT USE INFORMATION & QUALITY ISSUES:

Reishi, Rhodiola, Ashwaganda, and Holy Basil support healthy energy levels throughout the day1-6. Reishi, Rhodiola, Ashwaganda, and Holy Basil support healthy immunity1-9. Along with Chromium, and Corosolic Acid, these herbs also help to support healthy serum glucose levels1-12. Relora® has been included in this formula to alleviate symptoms associated with stress such as irritability and nervous tension13.

This formula is recommended by Hyla Cass, MD.

This is the first Cortisol formula to use Relora®, a natural proprietary blend of a patented (U.S. Patent No. US 6,582,735) extract of Magnolia officinalis and a patent-pending extract from Phellodendron amurense. Relora® was developed as an ingredient for dietary supplements and functional foods that could be used in stress management and for stress-related appetite control. This patented blend of plant extracts is the result of screening more than fifty plant fractions from traditional plant medicines used around the world. Relora® has excellent stress management properties without causing sedation. Overweight adults may have excessive abdominal fat due to stress-related overeating. Relora® appears to maintain healthy hormone levels in stressed individuals and act as an aid in controlling weight and stress-related eating.33

SERVING SIZE & HOW TO TAKE IT: One capsule, two to three times a day.

COMPLEMENTARY PRODUCTS: Holy Basil, Green Tea, L-Theanine, Licorice Root, Vitamin C, Eleuthero Root, Pantothenic acid

CAUTIONS: None.

SPECIFIC: Some of these ingredients may support the body’s blood sugar controls, so people taking blood sugar medications should inform their physician before using Super Cortisol Support, and their glucose should be monitored when taking this formula so their medication strength can be modulated appropriately to avoid an overdose of medication. No side effects have been noted for this dosage of Relora®.

GENERAL: Pregnant and lactating women, children and people using prescription drugs should consult their physician before taking any dietary supplement. This information is based on my own knowledge and references, and should not be used as diagnosis, prescription or as a specific product claim. This document has not been reviewed by the FDA or by the company posting it. Information given here may vary from what is shown on the product label because this represents my own professional experience and understanding of the science underlying the formula and ingredients. When taking any new formula, use common sense and cautiously increase to the full dose over time.

Disclaimer: These statements have not been evaluated by the FDA. This product is not intended to diagnose, treat, cure or prevent any disease.

REFERENCES:

1. Spasov AA, Wikman GK, Mandrikov VB, Mironova IA, Neumoin VV (2000) Phytomedicine 7(2):85-89.
2. Darbinyan V, Kteyan A, Panossian A, Gabrielian E, Wikman G, Wagner H (2000) Phytomedicine 7(5):365-371.
3. Bhattacharya SK, Battacharya A, Sairam K, Ghosal S (2000) Phytomedicine 7(6):463-469.
4. Sembulingam K, Sembulingam P, Namasivayam A (1997) Indian J Physiol Pharmacol 41(2):139-143.
5. Archana R, Namasivayam A (2000) J Ethnopharmacol 73:81-85.
6. Lin Z-B, Zhang H-N (2004) Acta Pharmacol Sin 25(11):1387-1395.
7. Monograph (2002) Alt Med Rev 7(5):421-423.
8. Agarwal R, Divanay S, Patki P, Patwardhan B (1999) J Ethnopharmacol 67:27-35.
9. Archana R, Namasivayam A (2000) J Ethnopharmacol 73:81-85.
10. Vincent JB (2000) J Nutr 130:715-718. 11. Judy WV, Hari SP, Stogsdill WW, Judy JS, Naguib YMA, Passwater R (2003) J Ethnopharmacol 81)1):115-117.
12. Lin Z-B, Zhang H-N (2004) Acta Pharmacol Sin 25(2):191-195.
13. Maruyama Y, Kuribara H, Morita M, Yuzurihara M, WeIntraub ST (1998) J Nat Prod 61:135-138.
14. Brown RP, et al. American Botanical Council. Rhodiola rosea: a phytomedicinal overview. g/herbalgram/articleview.asp?a=2333.
15. Kelly GS. Rhodiola rosea: a possible plant adaptogen. Alt Med Rev 2001;3(6):293-302.
16. De Bock K, et al. Acute rhodiola rosea intake can improve endurance exercise performance. Int J Sport Nutr Exerc Metab 2004;14:298-307.
17. Shevtsov VA, et al. A randomized trial of two different doses of a SHR-5 rhodiola rosea extract versus placebo and control of capacity for mental work. Phytomedicine 2003;2-3(10):95-105.
18. Shugarman AE. Men’s Fitness, 2002. As reported on: LookSmart FindArticles. Energy pills that work: can these five supplements help unleash the muscle building power within you? ttp://findarticles.com/p/articles/mi_m1608/is_3_18/ai_83343009/
19. Earnest CP, et al. Effects of a commercial herbal-based formula on exercise performance in cyclists. Med Sci Sports Exerc 2004;36(3):504-9.
20. Wing SL, et al. Lack of effect of rhodiola or oxygenated water supplementation on hypoxemia and oxidative stress. Wilderness Env Med 2003;14(1):9-16.
21. Shu HY. Oriental Materia Medica: A Concise Guide. Palos Verdes, CA: Oriental Healing Arts Press, 1986, 640–1. 22. Kammatsuse K, Kajiware N, Hayashi K. Studies on Ganoderma lucidum: I. Efficacy against hypertension and side effects. Yakugaku Zasshi 1985;105:531–3.
23. Jin H, Zhang G, Cao X, et al. Treatment of hypertension by ling zhi combined with hypotensor and its effects on arterial, arteriolar and capillary pressure and microcirculation. In: Nimmi H, Xiu RJ, Sawada T, Zheng C. (eds). Microcirculatory Approach to Asian Traditional Medicine. New York: Elsevier Science, 1996, 131–8.
24. 9. Hobbs C. Medicinal Mushrooms. Santa Cruz, CA: Botanica Press, 1995, 96–107.
25. Kono S, Shinchi K, Ikeda N, et al. Green tea consumption and serum lipid profiles: A cross-sectional study in Northern Kyushu, Japan. Prev Med 1992;21:526–31.
26. Yamaguchi Y, Hayashi M, Yamazoe H, et al. Preventive effects of green tea extract on lipid abnormalities in serum, liver and aorta of mice fed an atherogenic diet. Nip Yak Zas 1991;97:329–37.
27. Sagesaka-Mitane Y, Milwa M, Okada S. Platelet aggregation inhibitors in hot water extract of green tea. Chem Pharm Bull 1990;38:790–3.
28. Stensvold I, Tverdal A, Solvoll K, et al. Tea consumption. Relationship to cholesterol, blood pressure, and coronary and total mortality. Prev Med 1992;21:546–53.
29. Tsubono Y, Tsugane S. Green tea intake in relation to serum lipid levels in middle-aged Japanese men and women. Ann Epidemiol 1997;7:280–4.
30. Serafini M, Ghiselli A, Ferro-Luzzi A. In vivo antioxidant effect of green tea in man. Eur J Clin Nutr 1996;50:28–32.
31. Benzie IF, Szeto YT, Strain JJ, Tomlinson B. Consumption of green tea causes rapid increase in plasma antioxidant power in humans. Nutr Cancer 1999;34:83–7.
32. Sasazuki S, Komdama H, Yoshimasu K, et al. Relation between green tea consumption and severity of coronary atherosclerosis among Japanese men and women. Ann Epidemiol 2000;10:401–8.
33. Sufka KJ, et al. Anxiolytic properties of botanical extracts in the chick social separation-stress procedure.Psychopharmacology. 2001 Jan 1;153(2):219-24. PMID: 11205

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Vitaberry Plus + Super Fruit Antioxidant
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Date: December 07, 2005 05:43 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Vitaberry Plus + Super Fruit Antioxidant

Vitaberry Plus +™ Super Fruit Antioxidant

By Nilesh Patel, NOW Quality Assurance, April 20, 2005 Why are FRUITS AND VEGETABLES important? “Diets rich in FRUITS AND VEGETABLES may reduce the risk of some types of cancer and other chronic diseases.”- National Cancer Institute. OXYGEN AND ANTIOXIDANTS As we all know, “Oxygen is critical to life,” but is itself a double-edged sword. While oxygen is necessary to sustain life and for natural defense against microbes, too much oxygen in our cells can lead to the production of “free radicals” (mitochondrial respiratory chain) or ROS (Reactive Oxygen Species). Free radicals come in many forms - singlet oxygen, hydrogen peroxide, superoxideperoxynitrite, to name a few - but all have one commonality. Each has an unpaired (unbalanced) electron, a situation it remedies by stealing an electron from a stable molecule. This sets off a domino effect of oxidation, a chain reaction that usually ends up damaging cellular integrity and compromising overall health. Nature has a defense system in place to protect these processes in the form of antioxidants. Whether endogenous (produced by the body, such as liver enzymes, SOD, coenzymes and sulfur-containing compounds) or exogenous (obtained through the diet, such as vitamins C & E, bioflavonoids, carotenes, etc.), antioxidants “quench” free radicals by donating an electron to stabilize a molecule, thus controling the chain reaction and stopping the oxidation “domino effect”. ANTIOXIDANT-RICH FOODS Research suggests that eating plenty of foods high in antioxidants helps to slow the processes associated with aging and protect against many chronic diseases. Maximizing one’s antioxidant power will enhance overall health. Fruit and vegetables contain both nutritive and non-nutritive factors that can affect oxidative damage and enzymatic defense and might contribute to redox (antioxidant and prooxidant) actions. A new “6-a-day” study looked into the effects of fruits and vegetables on markers of oxidative stress and antioxidative defense in healthy nonsmokers by The Danish Institute for Food and Veterinary Research in Denmark. The study found that fruits and vegetables increase erythrocyte glutathione peroxidase activity and resistance of plasma lipoproteins to oxidation more efficiently than do the nutritive factors (vitamins and minerals) that the fruits and vegetables are also known to contain. Certain berries, such as blackberries, also contain salicylates, which are also linked to heart health and prevention of atherosclerosis. The protective effects of fruits and vegetables intake on both heart disease death and deaths in general have previously been demonstrated but researchers at the Human Nutrition Research Center on Aging at Tufts University, Boston. Quercetin is an anti-oxidizing flavonoid found in many berries (such as cranberries, bilberries, blueberries, strawberries, etc.) and can prevent CVDs (coronary vascular diseases), according to a recent Finnish study. All these natural plant polyphenols are responsible for the colors of many red and purple berries, fruits, vegetables and flowers. GOVERNMENT GUIDELINES The new federal guidelines released earlier this year by the U.S. Department of Health and Human Services (HHS) and U.S. Department of Agriculture (USDA) recommend eating more fruits and vegetables, combined, than any other food group -- five cups or about 10 servings a day for most adults. The amount of fruits and vegetables recommended has increased for men and women of every age. “Fruits and vegetables are the "good news" story of the new Dietary Guidelines for Americans for food-loving consumers, the industry and America's public health”, stated the Produce for Better Health Foundation (PBH). Eating a variety of colorful phytochemical-rich fruits and vegetables has been associated with lower risk of some chronic diseases such as cancer and heart disease. Many authoritative organizations such as the National Cancer Institute and The American Heart Association recommend getting phytochemicals from whole foods, such as fruits and vegetables, rather than from individual component supplements. The Scottish government is promoting healthy eating through a scheme designed to increase purchasing of fruit and nutritional foods. Scottish health minister Andy Kerr said, "This initiative shows that healthy eating can be good for customers and good for business." Scottish women are said to have the highest rates of death from lung cancer in the world as well as the highest rates in Europe for coronary heart disease. They also have low consumption of fruits and vegetables, shown in studies to help protect against some cancers and benefit heart health. ROS (Reactive Oxygen Species) Free radicals and oxygen free radicals play an important role in the development and progression of many brain disorders such as brain injury, neurodegenerative disease, and Down syndrome. Oxidative stress is an important factor in the etiology and pathogenesis of diabetes & is also linked to other host of degenerative health conditions. Fortunately, antioxidants are available to support the body’s defense and fight disease and aging. Examples of “Fast acting antioxidants” in the body (serum) are: uric acid (polyphenols), ascorbate, bilirubin, vitamin E (the later two are lipid soluble). Examples of “Slow acting antioxidants” are glucose, urea nitrogen etc. In short, free radicals, reactive oxygen species (ROS) and reactive nitrogen species (RNS) are generated as by-products of normal cellular metabolism. Their deleterious effects are minimized in vivo (in the body) by the presence of antioxidant systems. How do Antioxidants work? Antioxidants are substances in plants that help maintain health. Antioxidants protect against damage to cells caused by too many “free oxygen radicals,” which form because of the effects of oxidation. Smoking, sunlight, heavy exercise, and pollution all increase oxidation in the body. Most people would benefit by eating more (five to nine or more servings) fruits and vegetables & colorful plant foods, such as purple, dark green, yellow, orange, blue, and red ones, each day. These have healthful pigments along with antioxidant nutrients such as vitamin C, carotenoids, beta-carotene, lycopene, lutein, zeaxanthin, vitamin E, selenium, flavonoids, and other beneficial substances. There are numerous ways in which these antioxidants affect, but can be explained in two groups: Alpha (a) Effects: This refers to the scavenging or neutralizing of free radicals. These effects do not change the way humans (or animals) feel. There are also no noticeable health, psychological or emotional benefits. While there are no obvious changes, increased total antioxidant intakes are associated with decreased tumor rates, prevention of heart attacks and increased longevity. Beta (ß) Effects: These are the changes on health, psychological or emotional state that you or others will notice. In this case, the antioxidant is affecting metabolic processes (enzymes) with consequent changes in the physical (improvement in joint movements, improved skin condition, tissue damage recovery), emotional (better ability to cope with stress) or psychological state (increased alertness). The ORAC value Because most of the active nutritional components in fruits and vegetables are antioxidants, accurate measurement of antioxidant activity serves as a good indicator of potential health benefit. Scientific opinion runs high that ORAC (Oxygen Radical Absorption Capacity) will eventually become a government standard of reference for overall daily fruits and vegetables intake. ORAC units are a measurement of the ability of food to stop oxidation. It is most generally expressed in terms of Trolox equivalent per gram (µmole Trolox equivalents (TE)/g). POPULATION DATA A survey done by the National Research Council indicates that only 10% of the US population consumes the recommended five servings of fruits and vegetables per day. The equivalent to eating 5 mixed servings of fruits and vegetables per day is about 1,670 ORAC units. Based on scientific evidence it is suggested that daily antioxidant intake should be increased to between 3,000 and 5,000 ORAC units per day, per human subject, in order to reach a significant antioxidant capacity in blood plasma and other tissues. WHAT IS NOW DOING TO HELP? In accord with our mission, “To provide value in products and services that empower people to lead healthier lives,” NOW® Foods is introducing an ALL-FRUIT-DERIVED antioxidant product called VitaBerry Plus +™ Super Fruit Antioxidant Vcaps (vegetarian capsules) (product number #3336). At time of manufacture this product provides an ORAC value of at least 2,500 units per serving from a full-spectrum antioxidant blend of fruits containing phytochemicals and phenolic compounds such as anthocyanins, proanthocyanins, chlorogenic acid, ellagic acid, quinic acid, resveratrol , many organic acids, resveratrol and vitamin C. VitaBerry Plus +™ is formulated with VitaBerry™ Hi-ORAC Fruit Blend [a proprietary blend of fruit extracts & concentrated powders containing Wild Blueberry (Vaccinium angustifolium) extract, Grape (Vitis vinifera) & Grape seed extract, Raspberry (Rubus idaeus) & Raspberry seed extract, Cranberry (Vaccinium macrocarpon), Prune (Prunus domestica), Tart Cherry (Prunus cerasus), Wild Bilberry (Vaccinium myrtillus) extract & Strawberry (Fragaria virginia)], Hi-Active™ Orange (Citrus sinensis) and Pomegranate (Punica granatum) min. 40% ellagic acid fruit extract. One gram of VitaBerry™ Hi-ORAC Fruit Blend provides at least 6,000 ORAC units (i.e., µmole Trolox equivalents (TE)/g). (Also watch for an upcoming antioxidant product from NOW called Enzogenol® (Pinus radiata bark extract from New Zealand) with Rutin (a flavonoid from South American fruit of Dimorphandra mollis) and Grapeseed extract. IS IT EFFECTIVE? Total ORAC value includes both lipophilic and hydrophilic components. VitaBerry Plus +™ contains only water/hydroethanol based extracts and concentrated (100:1 to 125:1) freeze-dried fresh fruit blends, so the lipophilic ORAC value is mere 2-4% of the total ORAC value. Glutathione peroxidase is a selenium-containing enzyme that decreases cell death from brain injuries. It also acts as a critical first-line antioxidant defense on the airway (respiratory) epithelial surface against ROS and RNS (reactive nitrogen species. Genetics research has found that the glutathione S-transferase gene controls the onset of Alzheimer’s, Parkinson’s disease etc. Taking glutathione (GSH) itself as a supplement does not boost cellular glutathione levels, since it breaks down in the digestive tract before it reaches the cells. So glutathione precursor dietary supplements (such as NAC and GliSODin), along with fruits and vegetables, are effective in boosting Intracellular levels of GSH. The lungs have a defense system against the ROS oxidants consisting of low molecular weight antioxidants such as GSH and Intracellular enzymes such as SOD, catalase and glutathione peroxidase to protect against the toxic effects of oxidants generated within the cells. Some of the primary effects of VitaBerry Plus +™ against the common reactive free-radical species or ROS are as follows: - Superoxide dismutase-SOD (destroys Superoxide radicals),
- Catalase (neutralizes peroxides),
- Functions similar to reduced Glutathione (GSH),
- Glutathione peroxidase enzyme (detoxifies peroxides, using GSH as a reducing agent),
- Functions similar to Glutathione S-transferase (GST),
- Nullifies Superoxide-generating NADH/NADPH oxidase system In conclusion More concentrated than fresh berries, with over 6000 ORAC units per gram, VitaBerry Plus +™ provides consumers with the antioxidant power of almost 15 servings per day of FRUITS AND VEGETABLES ina convenient vegetarian capsule form! VitaBerry™ PLUS +™ (# 3336) provides a powerful, convenient way to supplement diets that do not include sufficient fruit and vegetable antioxidants Selected References: USDA/HHS guidelines report at: etaryguidelines/dga2005/document/

ls.com/proprietary/pdf/VitaberryBrochure.pdf g Kaplan M., Hayek T. , Raz A., Coleman R. and Aviram M. Pomegranate juice supplementation to apolipoprotein E deficient mice with extensive atherosclerosis reduces macrophages lipid peroxidation, cellular cholesterol accumulation and development of atherosclerosis. J. Nutr. 131: 2082-2089 (2001) Lars O Dragsted et. al., The 6-a-day study:effects if fruit and vegetables on markers of oxidative stress and antioxidative defense in healthy nonsmokers. American Journal of Clinical Nutrition, Vol. 79, No. 6, 1060-1072, June 2004 Fuhrman B. and Aviram M. Polyphenols and flavaonoids protects LDL against atherogenic modifications.In: Handbook of Antioxidants Biochemical, Nutritional and Clinical Aspects, 2nd Edition. Cadenas E & Packer L (Eds.) Marcel Dekker, NY(Pub.). 16:303-336 (2001) Wood, Jacqueline, et al. Antioxidant activity of procyanidin-containing plant extracts at different pHs. Food Chemistry 77 (2002) 155-161 Aviram M. Pomegranate juice as a major source for polyphenolic flavonoids and it is most potent antioxidant against LDL oxidation and atherosclerosis. Free Radical Research 36 (Supplement 1): 71-72 (2002) Jennifer Schraag, Antioxidants: Nature’s Way of Balancing Life. HSR Health Supplement Retailer, Vol. 11, No. 2, 24-27, February 2005 com/news/printNewsBis.asp?id=58665 com/news/printNewsBis.asp?id=58697

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Dr. Verghese, M.D. Liver Detoxifier & Regenerator Fact Sheet
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Date: December 07, 2005 12:16 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Dr. Verghese, M.D. Liver Detoxifier & Regenerator Fact Sheet

Dr. Verghese, M.D. Liver Detoxifier & Regenerator Fact Sheet Neil E. Levin, CCN, DANLA 02/10/05

LIKELY USERS: People with exposure to toxins that stimulate liver activity; People with exposure to infections that may have damaged liver tissue

KEY INGREDIENT (S): Milk Thistle extract (Silymarin), Glutathione, NAC, Bupleurum extract, Grape Seed Extract, Dandelion Root extract, Artichoke Leaf, Schisandra and about a dozen additional herbs, along with synergistic ingredients

MAIN PRODUCT FEATURES: This formula was developed by a physician based on his clinical experience.

Artichoke leaf has antioxidant properties and restores healthy growth to liver cells.

Bupleurum may promote normal cell growth, immune function and is a staple of Chinese liver formulas. Dandelion Root may serve as a natural down-regulator of inflammatory chemicals in the body. NAC supports liver Glutathionestores (antioxidant, detoxifier, heavy metal chelator). Schisandra protects liver cells from toxins and may help to regenerate damaged cells. Milk thistle’s antioxidant Silymarin improves liver function tests and protects liver cells against oxidative damage. It also protects liver cells by blocking and removing toxins from the liver. Silymarin aids in regenerating injured liver cells and blocks fibrosis.

OTHER IMPORTANT ISSUES: Samuel Verghese, M.D. (AM), Ph.D., BCIA-EEG, DAAPM, holds a degree in Alternative Medicine and specializes in Nutritional, Ayurvedic and other Alternative Health Solutions. He is certified as a BCIA-EEG Associate Fellow.

AMOUNT TO USE: Three or more capsules a day, preferably with meals.

COMPLEMENTARY PRODUCTS: Antioxidants (supports liver detoxification), Alpha Lipoic Acid, EGCg Green Tea Extract, Astragalus, medicinal mushrooms (shiitake, reishi), SAM-e (may improve bile flow and promotes methylation to detoxify chemicals), TMG, lecithin, thymus glandular extract, Cordyceps.

AVOID: acetaminophen, alcohol, iron supplements (also red meat, fortified flour)

CAUTIONS: This formula should not be used by pregnant women, nursing mothers children or those with liver problems unless recommended under the supervision of a healthcare professional. Please notify your physician about your supplement use if you are using any drugs! Disclaimer: These statements have not been evaluated by the FDA. This product is not intended to diagnose, treat, cure or prevent any disease.

REFERENCES:

1. Salmi HA, Sarna S. Effect of silymarin on chemical, functional and morphological alterations of the liver. A double-blind controlled study. Scand J Gastroenterol 1982;17:517–21.
2. Feher J, Deak G, Muzes G, et al. Liver-protective action of silymarin therapy in chronic alcoholic liver diseases. Orv Hetil 1989;130:2723–7 [in Hungarian].
3. Muzes G, Deak G, Lang I, et al. Effect of silymarin (Legalon) therapy on the antioxidant defense mechanism and lipid peroxidation in alcoholic liver disease (double blind protocol.) Orv Hetil 1990:131:863–6 [in Hungarian].
4. Velussi M, Cernigoi AM, De Monte A, et al. Long-term (12 months) treatment with an anti-oxidant drug (silymarin) is effective on hyperinsulinemia, exogenous insulin need and malondialdehyde levels in cirrhotic diabetic patients. J Hepatol 1997;26:871–9.
5. Lieber CS. Nutrition in liver disorders. In: Shils ME, Olson JA, Shike M, Ross AC (eds). Modern Nutrition in Health and Disease, 9th ed. Baltimore, MD: Williams and Wilkins, 1999, 1179–80.
6. Rodriguez-Moreno F, Gonzalez-Reimers E, Santolaria-Fernandez F, et al. Zinc, copper, manganese, and iron in chronic alcoholic liver disease. Alcohol 1997;14:39–44.
7. Gibbs K, Walshe JM. Studies with radioactive copper (64 Cu and 67 Cu); the incorporation of radioactive copper into caeruloplasmin in Wilson’s disease and in primary biliary cirrhosis. Clin Sci 1971;41:189–202.
8. Lieber CS. Nutrition in liver disorders. In: Shils ME, Olson JA, Shike M, Ross AC (eds). Modern Nutrition in Health and Disease, 9th ed. Baltimore, MD: Williams and Wilkins, 1999:1179–80.
9. Halsted CH. Alcohol: medical and nutritional effects. In Ziegler EE, Filer LJ (eds). Present Knowledge in Nutrition, 7th ed. ILSI Press, Washington, DC, 1996, 553.
10. Blum AL, Doelle W, Kortum K, et al. Treatment of acute viral hepatitis with (+)-cyanidanol-3. Lancet 1977;2:1153–5.
11. Suzuki H, Yamamoto S, Hirayama C, et al. Cianidanol therapy for HBs-antigen-positive chronic hepatitis: a multicentre, double-blind study. Liver 1986;6:35–44.
12. Tang W, Eisenbrand G. Chinese Drugs of Plant Origin. Berlin: Springer Verlag, 1992. (Astragalus)
13. Hobbs, C. Medicinal Mushrooms. Santa Cruz, CA: Botanica Press, 1995, 96–107.
14. Harada T, Kanetaka T, Suzuki H, Suzuki K. Therapeutic effect of LEM (extract of cultured Lentinus edodes mycelia) against HBeAg-positive chronic hepatitis B. Gastroenterol Int 1988;1(suppl 1):abstract 719. 15. Kelly GS. Clinical applications of N-acetylcysteine. Altern Med Rev. Apr1998;3(2):114-27.
16. Montanini S, et al. Use of acetylcysteine as the life-saving antidote in Amanita phalloides (death cap) poisoning. Case report on 11 patients. Arzneimittelforschung. Dec1999;49(12):1044-7.
17. Buckley NA, et al. Oral or Intravenous N-acetylcysteine: which is the treatment of choice for acetaminophen (paracetamol) poisoning? J Toxicol Clin Toxicol. 1999;37(6):759-67. 18. Girardi G, Elias MM. Effectiveness of N-acetylcysteine in protecting against mercuric chloride-induced nephrotoxicity. Toxicology. Apr1991;67(2):155-64.
19. Berkson MB. Alpha-Lipoic Acid (Thioctic Acid): My Experience With This Outstanding Therapeutic Agent. Journal of Orthomolecular Medicine. 1998;13(1):44-48.
20. Breithaupt-Grogler K, et al. Dose-proportionality of oral thioctic acid--coincidence of assessments via pooled plasma and individual data. Eur J Pharm Sci. Apr1999;8(1):57-65.
21. Gebhardt R. Antioxidative and Protective Properties of Extracts from Leaves of the Artichoke (Cynara scolymus L.) Against Hydroperoxide-induced Oxidative Stress in Cultured Rat Hepatocytes. Toxicol Appl Pharmacol. Jun1997;144(2):279-86.
22. Adzet T, et al. Hepatoprotective Activity of Polyphenolic Compounds From Cynara scolymus Against CCl4 Toxicity in Isolated Rat Hepatocytes. J Nat Prod. Jul1987;50(4):612-17.
23. Gebhardt R. Antioxidative and protective properties of extracts from leaves of the artichoke (Cynara scolymus L.) against hydroperoxide-induced oxidative stress in cultured rat hepatocytes. Toxicol Appl Pharmacol. Jun1997;144(2):279-86.
24. Khadzhai I, et al. Effect of Artichoke Extracts on the Liver. Farmakol Toksikol. Nov1971;34(6):685-87.
25. Newall CA, et al. Herbal Medicine: A Guide for Health-Care Professionals. Cambridge: Pharmaceutical Press; 1996:36-37.
27. Newall CA, et al. Herbal Medicines: A Guide for Health Care Professionals. London: The Pharmaceutical Press;1996:96-97.
28. Bradley PR, ed. British Herbal Compendium. Vol.1. Bournemouth: British Herbal Medicine Association;1992:73-74.
29. Newall CA, et al. Herbal Medicines: A Guide for Health Care Professionals. London: The Pharmaceutical Press;1996:96-97.



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Rhodiola - Adaptogenic Herbs & Immunity Enhancers
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Date: December 06, 2005 09:31 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Rhodiola - Adaptogenic Herbs & Immunity Enhancers

If someone told you they knew of an herb that was a powerful antioxidant, supported the immune system, and regulated the neurotransmitters that help you deal with stress and its physical and psychological effects1,2,3,4, thereby improving the quality of your life, would you be interested? If you answered ‘YES’, then read on. That herb is available today, and it’s called Rhodiola.

Rhodiola (Rhodiola rosea), also known as “golden root”, is one of over 200 different species of Rhodiola, 20 of which are currently used in traditional medical systems in Asia. In fact, Rhodiola has been used in the traditional medical systems in Asia for hundreds of years as a means to stimulate the nervous system, decrease depression and fatigue, and even to help prevent high altitude sickness.

For the past quarter century, Russian and Scandinavian scientists have studied Rhodiola and its constituents. However, much of this research was unavailable to Western scientists until recently. Their research indicates that Rhodiola has diverse benefits on physiological functions, including central nervous system and cardiovascular function. Most of this research was done on Russian athletes.

In fact, it’s now known that Russian athletes used Rhodiola for many decades before Western medicine became aware of it, and it’s believed to be part of the reason Russian athletes were such formidable foes in athletic events of the past half century. Their ability to quickly adapt to the unique stress of athletic competition took on legendary proportions. And this was partially due to supplementation with Rhodiola.

The results of this research led them to classify Rhodiola as an “adaptogen”. The Russian scientist Lazarev (1947) established the criteria for an adaptogen3, and his definition is still valid today:

  • • An adaptogen produces a non-specific response in an organism; i.e. an increase in power of resistance against multiple stressors including physical, chemical and biological agents.
  • • An adaptogen has a normalizing influence on physiology, irrespective of the direction of change from physiological norms caused by the stressor.
  • • An adaptogen is incapable of influencing normal body functions more than required to gain non-specific resistance.
Basically, an adaptogen helps the body adjust to different stressors, and also helps the body to reassume homeostasis (the balance between various bodily functions and the chemical composition of fluids and tissues) once the stressor is no longer present2.

Rhodiola certainly fits these criteria, having shown beneficial results against stressors such as fatigue and nervous tension, as well as anxiety due to different factors such as intense study and dieting2. If these factors are limiting your effectiveness, then Rhodiola may be the answer you’re looking for.

So what does all this mean? It means that Rhodiola can offer generalized, non-specific resistance to physical, chemical and biological stressors you may experience every day, without affecting normal body functions, thereby enhancing the quality of life. Scientists believe that Rhodiola does this in part by promoting the release of certain neurotransmitters responsible for feelings of well-being, as well as regulating hormone production in response to stress1,2,3,4. It also appears to increase the permeability of the bloodbrain barrier to neurotransmitter precursors, aiding and even increasing their beneficial effects. “…the dual action of cognitive stimulation and emotional calming creates benefits for both immediate cognitive and memory performance and for the long-term preservation of brain functions.”

Rhodiola also imparts antioxidant protection by helping to protect the nervous system from oxidative damage by free radicals2. Chemical analysis of the genus Rhodiola has isolated a number of naturally occurring compounds found in the roots and above ground parts of the plant that provide Rhodiola’s adaptogenic properties. Rhodiola rosea differs from other species in the genus due to three unique phytochemicals that only occur in this particular species – rosavin, rosin, and rosarin (collectively referred to as rosavins). Researchers believe these phytochemicals are responsible for the unique characteristics found ONLY in the Rhodiola rosea species2,3. A good quality Rhodiola rosea supplement should be standardized to contain a minimum of 3% rosavins. Other species of Rhodiola don’t offer the same benefits.

In today’s world, stress is one of the most pervasive yet overlooked causes of poor health. NOW® Rhodiola helps the body deal with the adverse affects of stress with a potent, 500mg standardized extract containing 3% rosavins, the unique compounds that give Rhodiola rosea its amazing protective and antioxidant properties. Protect your body and mind with Rhodiola from NOW® Foods!

References

1) Ramazanov, Zakir & Appell, Brian; Rhodiola Rosea For Chronic Stress Disorder; National Bioscience Corporation, 2002

2) Brown, Richard P.; Gerbarg, Patricia L.; Ramazanov, Zakir; Rhodiola rosea: A Phytomedicinal Overview; HerbalGram: The Journal of the American Botanical Council, 56: 40-52

3) Kelley, Gregory S.; Rhodiola rosea: A Possible Plant Adaptogen (evaluation of therapeutic properties); Alternative Medicine Review, June 2001; 6(3): 293-302

4) Rhodiola (Rhodiola rosea (Golden Root, Arctic Root)); Intramedicine website, Professional Monographs, January, 2001



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Research on SAMe....
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Date: October 26, 2005 12:49 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Research on SAMe....

Two groups of researchers have conducted analyses of trials that utilized SAM-e for mood enhancement. One meta-analysis was published in 1994. The researchers analyzed the efficacy of SAM-e in oral or injection forms based on published trials dated between 1973 and 1992. The authors concluded that there was a significant improvement of 17 to 38% seen in trials of SAM-e compared to placebo response. They state that the efficacy of SAM-e was superior to placebo and its administration caused few side effects.5 A second review was published in 2002. The authors analyzed studies in which SAM-e doses ranged from 200 to 1600 mg daily. They also found a significant effect of SAM-e in comparison to placebo, with an evident rapid onset of effect at enhancing mood.6

Promotes Joint Comfort and Mobility*

As a sulfur donor to connective tissue, SAM-e plays a major role in protecting the integrity of cartilage tissue. An in vitro trial assessed the actions of SAM-e in cultured human articular chondrocytes. At a concentration of 10 micrograms/ml, proteoglycan synthesis and sulfate residue incorporation in chondrocytes was shown to be 60% higher than control levels. Based on these results, it was shown that SAM-e has a positive influence on the growth and health of cartilaginous connective tissue.7

In a double-blind trial with 734 individuals with compromised joint health. SAM-e given orally at a dose of 1200 mg daily for 30 days was shown to significantly promote joint comfort compared to placebo, with a high level of tolerability and low incidence of side effects. The researchers concluded that SAM-e is a highly effective supplement for enhancing joint comfort.8

Another trial evaluated the response of individuals experiencing discomfort in the joints to a regimen of 1200 mg SAM-e for 1 week followed by 800 mg for the second week, and then 400 mg for weeks 3 through 8. This open trial of 20, 641 people showed a strong ability of SAM-e to enhance feelings of comfort within the joints. The treatment was rated as “very good” or “good” in 71% of the participants, with an additional 21% rating the treatment effect as “moderate”.9

In a long-term trial lasting 24 months, SAM-e was given to 108 participants with compromised joint function. Individuals were given 600 mg orally per day for the first two weeks followed by 400 mg daily for the remainder of the trial. Individuals experienced significant enhancements in joint comfort, with dramatic improvements noted after 2-4 weeks of treatment. Improvements continued to 6 months and beyond.10

In addition to the above studies, a review was conducted in 1987 to assess the results of SAM-e supplementation in clinical trials for enhancing joint mobility and function. Over 22,000 individuals had participated in the clinical trials that were the subject of this review. The author concluded from his analysis that SAM-e was shown to be highly efficacious, rivaling or surpassing the effectiveness of other treatments, and also possessing a high level of safety.11 Because of this, SAM-e may be the treatment of choice for enhancing joint function.

Supports Liver Health and Detoxification*

SAM-e supplementation can have profound benefits on liver function. These benefits center around its function as the major methyl donor in the liver, as well as its lipotropic activity. SAM-e also enhances the production of the antioxidant glutathione.

A number of trials have been conducted showing the ability of SAM-e to support liver detoxification functions and enhance liver health in individuals susceptible to toxin-induced liver compromise. SAM-e has the ability to normalize liver function by increasing the activity of enzymes needed to upregulate liver detoxification. These effects are comprehensive and rapid. Dosages used in these studies range from 600 mg to 1600 mg daily for 2 months to two years.12,13,14 In these trials, significant benefits of SAM-e supplementation were seen over placebo.

Safety

SAM-e has an excellent safety profile and is considered well-suited for long term use based on multiple clinical trials. Individuals diagnosed with manic depression should avoid SAM-e supplementation, as it may aggravate the manic phase *This statement has not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure or prevent any disease.

Scientific References

1. Agnoli A, Andreoli V, Casacchia M, Cerbo R. Effect of s-adenosyl-l-methionine (SAMe) upon depressive symptoms. J Psychiatr Res. 1976;13(1):43-54.

2. De Leo D. S-adenosylmethionine as an antidepressant. Curr Ther Research. 1987;41(6):865-70.

3. Kagan BL, Sultzer DL, Rosenlicht N,Gerner RH. Oral S-adenosylmethionine in depression: a randomized, double-blind, placebo-controlled trial. Am J Psychiatry. 1990 May;147(5):591-5.

4.Salmaggi P,Bressa GM,Nicchia G,Coniglio M,La Greca P,Le Grazie C.Doubleblind, placebo-controlled study of S-adenosyl-L-methionine in depressed postmenopausal women. Psychother Psychosom. 1993;59(1):34-40.

5. Bressa GM. S-adenosyl-l-methionine (SAMe) as antidepressant: metaanalysis of clinical studies. Acta Neurol Scand Suppl. 1994;154:7-14. 6.Mischoulon D, Fava M. Role of S-adenosyl-L-methionine in the treatment of depression: a review of the evidence. Am J Clin Nutr. 2002 Nov;76(5):1158S-61S.

7. Harmand MF, Vilamitjana J,Maloche E, Duphil R, Ducassou D. Effects of Sadenosylmethionine on human articular chondrocyte differentiation. An in vitro study. Am J Med. 1987 Nov 20;83(5A):48-54.

8. Caruso I, . Italian double-blind multicenter study comparing S-adenosylmethionine, naproxen, and placebo in the treatment of degenerative joint disease. Am J Med. 1987 Nov 20;83(5A):66-71.

9. Berger R, Nowak H. A new medical approach to the treatment of osteoarthritis. Report of an open phase IV study with ademetionine (Gumbaral). Am J Med. 1987 Nov 20;83(5A):84-8.

10. Konig B. A long-term (two years) clinical trial with S-adenosylmethionine for the treatment of osteoarthritis. Am J Med. 1987 Nov 20;83(5A):89-94.

11. di Padova C. S-adenosylmethionine in the treatment of osteoarthritis. Review of the clinical studies. Am J Med. 1987 Nov 20;83(5A):60-5.

12. Frezza M, et al. S-adenosylmethionine counteracts oral contraceptive hepatotoxicity in women. Am J Med Sci. 1987; 293(4):234-238.

13. Frezza M, Surrenti C, Manzillo G, Fiaccadori F, Bortolini M, Di Padova C. Oral S-adenosylmethionine in the symptomatic treatment of Intrahepatic cholestasis. A double-blind, placebo-controlled study. Gastroenterology. 1990 Jul;99(1):211-5.

14. Mato JM, et al. S-adenosylmethionine in alcoholic liver cirrhosis: a randomized, placebo-controlled, double-blind, multicenter clinical trial. J Hepatol. 1999 Jun;30(6):1081-9.



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All SAM-e supplements are not created equal
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Date: October 26, 2005 12:41 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: All SAM-e supplements are not created equal

All SAM-e supplements are not created equal

During the manufacture of SAM-e, two forms are produced known as the S,S and the R,S isomers. The S,S isomer is the biologically active form in the human body, whereas the R,S form is considered to be inactive. Double Strength SAMe 400 utilizes Italian SAM-e to yield the highest available percentage of the active pure S,S form on the market. Double Strength SAMe 400 contains an average of nearly 80% of the active S,S form. Other SAM-e products contain as little as only 50% of the active form. A higher content of the active form yields a more potent product.

The molecule SAM-e itself is highly unstable. It will degrade quickly in conditions of heat, light and moisture. To increase its stability, it must be formed into a salt. It is important to note that SAM-e used for dietary supplements exists in a number of salt forms. Double Strength SAMe 400 utilizes the SAM-e tosylate disulfate salt form. This salt has been the most extensively utilized form in clinical trials of SAM-e.

Because of the unstable nature of pure SAM-e it is also highly susceptible to degradation in an acidic environment like the stomach. To be utilized effectively, it must pass through the stomach for absorption in the small intestine. For this reason, only enteric-coated formulas should be used. Double Strength SAMe 400 tablets are enteric-coated to maximize the utilization and benefit of the SAM-e by the body.

Benefits

Enhances Mood and Neural Function*

SAM-e has been studied for decades now for its potential role in enhancing mood and supporting healthy neural metabolism. In a double-blind placebo trial published in 1976, 30 individuals were given either SAM-e Intramuscular injections (15 mg three times daily) or placebo. Individuals were assessed for improved mood and affect. It was found that 100% of patients in the SAMe group showed significant improvements in mood, while only 30% of the placebo group showed any improvement.1 The improvement seen with SAM-e in this trial was rapid, with a response time of between 4 and 7 days.

A second Italian double-blind placebo controlled study was published in 1987. Again, individuals showing signs of decreased affect and mood were administered 200 mg SAM-e as daily Intramuscular injections, or a placebo, for four weeks. Each group consisted of 20 patients, with all medial and laboratory results being normal. Rating scales were used to monitor changes and the authors found that the treatment with SAM-e was significantly superior to placebo and was very well tolerated.2

Researchers had known that SAM-e injections showed benefit in mood enhancement based on the results of multiple clinical trials. However, with injections, chronic administration is always challenging. For this reason, oral doses are superior in terms of ease of administration. Studies were conducted to assess the efficacy of oral SAM-e preparations. One such study was published in 1990.

In this double-blind placebo-controlled trial, individuals were given increasing doses of SAM-e from 200 mg to 800 mg twice daily, or placebo, over the 21 day period of the trial. In the placebo group, one of the six individuals showed an enhancement of mood of 50% according to the rating scales, whereas 6 of the 9 individuals given the oral SAM-e showed a 50% or greater improvement in mood and affect.3 It was concluded that oral SAM-e, like SAM-e injections, can significantly enhance mood without significant side effects.

Another double-blind placebo controlled trial looked at the effects of administering 1600 mg of SAM-e, or placebo, daily to 80 women aged between 45 and 59. The administration took place for 30 days, after which the women were assessed for improvements. Rating scales were administered at 10 and 30 days. SAM-e supplementation significantly enhanced mood and affect in the women compared to placebo administration.4 SAM-e was also seen to be well tolerated, as three women in the placebo group and two women in the SAM-e group complained of minor side effects which did not interfere with continuation of treatment.



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Benefits of Alpha Lipoic Acid
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Date: October 13, 2005 05:08 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Benefits of Alpha Lipoic Acid

Benefits of Alpha Lipoic Acid

  • Supports the Body’s Defense Against Free Radicals*
  • Recycles Antioxidant Nutrients such as Vitamin C and Vitamin E*
  • Helps Maintain a Healthy Blood Sugar Level when used as part of the diet*

    Alpha-lipoic Acid––the "Ideal Antioxidant"

    The antioxidant potential of a substance is based on a number of criteria, including:
    1) Ability to quench specific free-radicals.
    2) Ability to bind or "chelate" metal ions that can generate free radicals.
    3) Supports function of other antioxidants.
    4) Absorption/bioavailability.
    5) Concentration in tissues, cells and extra cellular fluids.
    6) Ability to function as an antioxidant in fatty and watery environments.

    The "ideal antioxidant" would meet all the above criteria. Very few antioxidants do, yet a particular antioxidant with but a few of the characteristics is still valuable and effective. Vitamin E, for example, is one of the most important dietary antioxidants, yet it only works in fatty environments such as cell membranes.

    As a team, ALA and DHLA come close to the ideal, for the following reasons:1,2,3
    1) ALA is easily absorbed when consumed orally.
    2) ALA is readily converted to DHLA in various tissues.
    3) As a pair, ALA and DHLA neutralize superoxide, hydroxyl, peroxyl, and hypochlorus radicals.
    4) ALA and DHLA form stable complexes with metal ions such as iron, manganese, copper and zinc ions.
    5) ALA and DHLA scavenge free radicals in fatty environments and watery environments.
    6) DHLA recycles other important antioxidants.

    DHLA-regenerates vitamin C, vitamin E and glutathione

    Within the cell, antioxidants work as a team to keep free radicals from damaging cell structures. In order to neutralize a free radical, an antioxidant such as vitamin C must give up an electron, which mean it becomes oxidized. Before it can function as an antioxidant once again, it must be regenerated back to its "reduced" form, by gaining an electron to replace the donated electron. For this, it needs the help of other antioxidants. Vitamin C, vitamin E and glutathione are key antioxidants that can be generated by cycling between their oxidized and reduce forms. This is necessary to maintain the balance between oxidation and its reverse––the neutralization of free radicals by antioxidants.

    DHLA is an essential component in the interaction between these antioxidants.4 Studies show that addition of alpha-lipoic acid to liver tissues results in increased vitamin C levels. It has been found that DHLA is responsible for regenerating vitamin C, which in turn regenerates vitamin E.3 DHLA also converts glutathione from its oxidized form back into its free radical scavenging reduced form.3,5 The ALA/DHLA pair is thus vital for prevention of "oxidative stress," which occurs which the balance is tipped in favor of oxidation in cells.4 DHLA helps preserve antioxidants in both the watery cell interior and the fatty structure of cell membranes.6 Evidence from animal studies suggests that DHLA protects the brain against free radical damage.7

    Alpha-lipoic Acid and Blood Sugar

    Alpha-lipoic acid is a key factor in the cellular process that metabolizes glucose to produce energy for cellular functions. The importance of ALA’s role in blood sugar metabolism is evidenced in studies on ALA and type-2 diabetes. In a small pilot study, 13 people with type-2 diabetes showed improved utilization of glucose in muscle tissue in response to Intravenous administration of ALA.8 In a four week controlled multicenter trial, 74 people with type-2 diabetes took ALA in oral doses of 600, 1200 or 1800 mg per day. After 4 weeks, the normal lowering of blood sugar levels in response to insulin improved.9 In vitro studies have shown that ALA has a positive effect on insulin-stimulated uptake of glucose by muscle cells.10

    Scientific References

    1. Packer, L.. Witt, E., Tritschler, H. Alpha-lipoic acid as a biological antioxidant. Free Radical Biology and Medicine 1995;19(2):227-50.

    2. Suzuki, Y., et al. Thioctic acid and dihydrolipoic acid are novel antioxidants which interact with reactive oxygen species. Free Rad. Res. Comms. 15(5):255-63.

    3. Biewenga, G., Haenen, G., Bast, A. The pharmacology of lipoic acid. Gen. Pharmac. 29(3):315-31.

    4. Serbinova, E. Maitra, I., Packer, L. The synergy between vitamin E and alpha-lipoic acid--–possible relationship against oxidative stress in vivo. Life Chemistry Reports 1994;12:17-21.

    5. Bast, A. Haenen, G. Interplay between lipoic acid and glutathione in the protection against microsomal lipid peroxidation. Biochimica et Biophysica Acta 1988; 963:558-561.

    6. Kagan, V. et al. Dihydrolipoic acid––a universal antioxidant both in the membrane and in the aqueous phase. Reduction of peroxyl, ascorbyl and chromanoxyl radicals. Biochem Pharmacol 1992;44(8):1637.

    7. Prehn, J. et al. Dihydrolipoate reduces neuronal injury after cerebral ischemia. J Cereb Blood Flow Metab 1992;12(1):78-87.

    8. Jacob, S. et al. Enhancement of glucose disposal in patients with type-2 diabetes by alpha-lipoic acid. Arzneimittelforschung 1995;45(8):872-4.

    9. Jacob, S et al. Oral administration of RAC-alpha-lipoic acid modulates insulin sensitivity in patients with type-2 diabetes mellitus: a placebo-controlled pilot trial. Free Radical Biology & Medicine 1999;27(3/4):309-14.

    10. Estrada, D. et al. Stimulation of glucose uptake by the natural coenzyme alpha-lipoic acid/thioctic acid: participation of elements of the insulin signaling pathway. Diabetes 1996;45(12):1798-804.



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    Best Hyaluronic Acid w/Chondroitin Sulfate - Benefits of...
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    Date: July 27, 2005 12:28 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: Best Hyaluronic Acid w/Chondroitin Sulfate - Benefits of...

    Benefits

    • Supports Healthy Joint Structure and Function*

    Components of BioCell Collagen II including collagen type II, chondroitin sulfate and hyaluronic acid (HA) can enhance proteoglycans in the joint matrix, thereby providing support for healthy joint function and maintaining joint shock absorption and cushioning.

    CHONDROITIN SULFATE

    Chondroitin has been well studied for its effects on joint health. In a 1996 controlled, double-blind trial published in the Journal of Rheumatology, 146 volunteers consumed chondroitin sulfate daily for 6 months. Changes in joint function were measured according to several clinical parameters and carefully analyzed. After the first month, significant improvements were noted and maintained for three months after the subjects stopped taking the chondroitin sulfate.1 In an earlier double-blind study subjects taking chondroitin sulfate had improvements in joint function after three months of use, as determined by both objective and subjective measurements.2 In both studies, the benefits lasted for weeks after subjects stopped taking chondroitin sulfate.

    In another controlled study, 192 subjects took chondroitin sulfate or a placebo daily for one year. At the end of the trial, chondroitin sulfate maintained healthy joint cartilage thickness, while those on placebo had decreased cartilage. Improvements in joint function also occurred. The researchers reported that chondroitin exerted a clear chondroprotective effect.3

    COLLAGEN TYPE II

    A number of studies have also been conducted on the administration of collagen type II to individuals that have various joint issues. Much of this research has been conducted on animal models of joint conditions while there are also studies showing the effectiveness of oral collagen type II preparations in humans for maintenance of healthy joints.

    A randomized controlled trial conducted on 60 patients with joint health issues in 1993 found that oral administration of chicken collagen type II for 3 months led to a significant decrease in swollen and tender joints in this group, as compared to no measurable improvement in the placebo group. There were also no side effects seen with the treatment.4 A second multicenter, double-blind, placebo-controlled trial in 274 individuals with joint issues was published in 1998. The participants were given collagen type II orally for 24 weeks. Positive effects of the treatment were noted while no adverse effects were seen.5

    A paper published in 2000 reviewed the literature to assess the role of hydrolyzed collagen in joint and bone health. It was found that hydrolyzed collagen when administered orally was able to support joint health in most of the trials reviewed while the author concluded that, “Its high level of safety makes it attractive as an agent for long-term use.”6

    HYALURONIC ACID (HA)

    Most of the literature on hyaluronic acid and joint health deals with its Intra-articular use, or injections of HA directly into the joints. In this realm, there is good evidence for the effects of HA on joint function.

    A study was conducted with injectable HA in individuals with TMJ (temporomandibular joint) conditions. Participants received two injections, each one week apart, or placebo injections with saline. In the HA group, the researchers found decreased clicking sounds and increased function of the joint at 1 month (90% of patients showed improvement) and 6 months (63%) of follow-up, compared to about 26% of the placebo group showing improvement at 6 months.7

    A pair of researchers also conducted a literature review of the trials using HA for improving joint health that was published in 2005. Their findings indicate a positive role for HA in modifying the structure of the joint and slowing progressive deterioration of joint function and mobility.8 Hyaluronic acid seems to have a natural affinity for joint tissue, and is therefore able to help support healthy joint structure and function.

    • SuSupports Healthy Joint Structure and Function*

    Hyaluronic Acid and Collagen are both vital components of skin tissue. Both compounds are known to decline with aging. Collagen is a vital structural component of the skin. It is also one of the most important substances required for proper skin barrier function and health. Collagen, as a major component of the connective tissue, provides structural support, increasing elasticity and tone of the skin.

    In 1994, researchers performed comparative measurements of hyaluronic acid levels in the skin of young and elderly individuals. The researchers had hypothesized that a major reason for the aged appearance of skin in the elderly is a reduction of hyaluronic acid levels. What they found using their methods is that there is a progressive reduction in the number of hyaluronic acid granules in human skin with age, until a complete absence of these granules was seen in individuals 60 years or older. These variations in HA levels with age could, according to the researchers, account for the decreased turgidity, wrinkled appearance and altered elasticity of skin tissue.9 Further research was needed to determine the effect of exogenously administered HA on the suppleness of human skin.

    In a laboratory study conducted in 1998, researchers analyzed the effects of HA given to live human skin cells. Whereas the cells on their own had a low rate of renewal, hyaluronic acid added to the cells resulted in increased proliferation of skin cells in the collagen matrix. This showed that supplementing skin cells with HA caused a significant increase in the ability of cells to go through the cell cycle.10 One of the major benefits of this may be hyaluronic acid’s ability to continually renew skin tissue to help maintain a youthful appearance of the skin.

    Safety

    Suggested Adult Use: Take 2 capsules daily, or as directed by a health care practitioner. Take with 8-10 ounces of water, with or without food.

    Scientific References

    1. Morreale P, et al. Comparison of the antiinflammatory efficacy of chondroitin sulfate and diclofenac sodium in patients with knee osteoarthritis. J Rheumatol (1996) 23:1385-91.

    2. Mazières B, et al. Chondroitin sulfate for the treatment of coxarthrosis and gonarthrosis. A prospective, multicenter, placebo-controlled, double blind trial with five months follow up. Rev. Rhum. Mal. Ostèoartic. 1992;59(7-8):466-472.

    3. Pipitone V, et al. A multicenter, triple-blind study to evaluate galactosaminoglucuronoglycan sulfate versus placebo in patients with femorotibial gonarthritis. Current Therapeutic Research 1992 52(4):608-38.

    4. Trentham DE, et al. Effects of oral administration of type II collagen on rheumatoid arthritis. Science. 1993 Sep 24; 261(5129) 1727-30.

    5. Barnett ML, et al. Treatment of rheumatoid arthritis with oral type II collagen. Results of a multicenter, double-blind, placebo-controlled trial. Arthritis Rheum. 1998 Feb; 41(2): 290-7.

    6. Moskowitz RW. Role of collagen hydrolysate in bone and joint disease. Semin Arthritis Rheum. 2000 Oct;30(2):87-99.

    7. Hepguler S, et al. The efficacy of Intra-articular sodium hyaluronate in patients with reducing displaced disc of the temporomandibular joint. J Oral Rehab. 2002; 29: 80-86.

    8. Goldberg VM, Buckwalter JA. Hyaluronans in the treatment of osteoarthritis of the knee: evidence for disease-modifying activity. Osteoarthritis Cartilage. 2005 Mar;13(3):216-24.

    9. Ghersetich I, et al. Hyaluronic acid in cutaneous intrinsic aging. Int J Dermatol. 1994 Feb; 33(2): 119-22.

    10. Greco RM, et al. Hyaluronic acid stimulates human fibroblast proliferation within a collagen matrix. J Cell Physiol. 1998 Dec; 177(3): 465-73.

    (https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=698)


    ST. JOHN’S WORT AND AIDS/HIV
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    Date: July 15, 2005 09:28 AM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: ST. JOHN’S WORT AND AIDS/HIV

    ST. JOHN’S WORT AND AIDS/HIV

    In 1991, some of the first work focusing on St. John’s wort’s effects on AIDS and the HIV virus began. Science magazine reported on the first study using the isolated hypericin, a key compound in Hypericum.16 Fred Valentine and Howard Hochster, researchers at New York University Medical Center, began one of the first studies looking at how hypericin can help uninfected T-cells from being infected with the AIDS virus in a cell culture. Their focus was on hypericin because it is a virucidal agent, meaning it can precisely target new virus particles and prevent them from infecting other cells.

    The only two drugs at that time approved for treating HIV infection—AZT and ddI—work by interfering with the key viral enzyme, reverse transcriptase. Since hypericin works more effectively than many drugs in regards to the reverse transcriptase phase, and since many animal tests have shown that it has low toxicity at therapeutic doses, researchers (including Valentine and Hochster) began these studies largely hoping that not only would hypericin work on its own, but that it would have a sort of synergistic effect when used with either AZT or ddI. 17

    Additional studies are pointing to St. John’s wort, and more so, hypericin, as having great potential in treating HIV. Acosta and Fletcher recently detailed the processes in which the human immunodeficiency virus works to infect human cells, and point out that hypericin is at least somewhat effective in inhibiting the four main phases of virus “growth”— binding and entry, reverse transcriptase, transcription and translation, and viral maturation and budding (the researchers note that hypericin is especially effective in binding and entry, the first phase.) This denotes that hypericin could eventually have special importance in completely stifling the development of the growth of any virus, and most importantly, that of the HIV virus.18

    Another study assessing the use and attitudes of HIV sufferers concerning the use of more alternative treatments for the virus as opposed to clinical drug therapies showed both an extensive use of unconventional therapies and a very favorable response to using the alternative treatments, which, of course, St. John’s wort was among. “Participants at all sites expressed positive views upon increasing unconventional remedies.”19 The fact is that the world of synthetic medicines has been basically ineffective in not only treating and relieving the symptoms of AIDS, but also in finding a cure for the dreaded disease. Sufferers are giving alternative therapies a try, and the results are very promising.

    A 1995 review appearing in Photochemisty-Photobiology treated the photodynamic properties of both hypericin and the structurally related hypocrellins for their anticancer and antiviral properties (especially the anti-human immunodeficiency virus). This article states that the promising anticancer and antiviral results obtained both in vitro and in vivo [in differing studies] have led to intensive investigation into their photo-physical and photochemical processes, especially kinetic studies of their Intramolecular proton transfer . . . The biomedical advances of hypericins have been further promoted by significant progress in their chemical synthesis and the recent commercialization of . . . hypericin.20

    Another study published in the September 1994 issue of Photochemistry-Photobiology gave hypericin the upper hand over the hypocrellins in treating HIV. Just one more vote in favor of promoting the use of St. John’s wort, and more specifically, hypericin, for use in treating HIV and in overall clinical medicine.

    (https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=630)


    Pain - Post Op and Relaxation
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    Date: July 13, 2005 09:24 AM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: Pain - Post Op and Relaxation

    Relaxation, Music Reduce Post-Op Pain. New research has found that relaxation and music, separately or together, significantly reduce patients' pain following major abdominal surgery. The study, published in the May issue of the journal Pain, found that these methods reduce pain more than pain medication alone. Led by Marion Good, PhD, RN, of Frances Payne Bolton School of Nursing, Case Western Reserve University, Cleveland, Ohio, the study is supported by the National Institute of Nursing Research (NINR), at the National Institutes of Health. "This is important news for the millions of Americans who undergo surgery and experience postoperative pain each year," said Dr. Patricia A. Grady, director of the NINR.

    "Better pain management can reduce hospital stays and speed recovery, ultimately improving patients' quality of life." Dr. Good and her research team studied three groups of patients undergoing abdominal surgery. In addition to the usual pain medication, one group used a jaw relaxation technique, another group listened to music, and a third group received a combination of relaxation and music.

    Findings revealed that, after surgery, the three treatment groups had significantly less pain than the control group, which received only pain medication. "Both medication and self-care methods which involve patient participation are needed for relief," said Dr. Good.

    "These relaxation and music self-care methods provide more complete relief without the undesired side effects of some pain medications." The findings have important implications for the 23 million people who undergo surgery and experience postoperative pain annually in the United States. Pain can hamper recovery by heightening the body's response to the stress of surgery and increasing tissue breakdown, coagulation and fluid retention. Pain also interferes with appetite and sleep and can lead to complications that prolong hospitalization.

    Dr. Good and her research staff worked with 500 patients aged 18-70, who were undergoing gynecological, gastrointestinal, exploratory or urinary surgery. Prior to surgery, those in the music, relaxation or combination groups practiced the techniques. The relaxation technique consisted of letting the lower jaw drop slightly, softening the lips, resting the tongue in the bottom of the mouth, and breathing slowly and rhythmically with a three-rhythm pattern of inhale, exhale and rest. Patients in the music group chose one of five kinds of soothing music--harp, piano, synthesizer, orchestral or slow jazz.

    On the first and second days after surgery, all patients received morphine or Demerol for pain relief by pressing a button connected to their Intravenous patient controlled analgesia pumps. The groups receiving the additional intervention used earphones to listen to music and relaxation tapes during walking and rest, while the control group did not. The research team measured the patients' pain before and after 15 minutes of bed rest and four times during walking to see if the sensation and distress of pain changed.

    Dr. Good found that during these two days postsurgery the three treatment groups had significantly less pain than the control group during both walking and rest. "Patients can take more control of their postoperative pain using these self-care methods," says Dr. Good. "Nurses and physicians preparing patients for surgery and caring for them afterwards should encourage patients to use relaxation and music to enhance the effectiveness of pain medication and hasten recovery."

    Dr. Good's findings have implications for future research into the effectiveness of self-care methods on other types of pain, including chronic pain, cancer pain, and pain of the critically ill.

    -----------------------------

    Vitamin D Lack Linked to Hip Fracture. Vitamin D deficiency in post-menopausal women is associated with increased risk of hip fracture, according to investigators at Brigham and Women's Hospital in Boston, Mass. In a group of women with osteoporosis hospitalized for hip fracture, 50 percent were found to have a previously undetected vitamin D deficiency. In the control group, women who had not suffered a hip fracture but who were hospitalized for an elective hip replacement, only a very small percentage had vitamin D deficiency, although one-fourth of those women also had osteoporosis. These findings were reported in the April 28, 1999, issue of the Journal of the American Medical Association.

    The study, conducted by Meryl S. LeBoff, MD; Lynn Kohlmeier, MD; Shelley Hurwitz, PhD; Jennifer Franklin, BA; John Wright, MD; and Julie Glowacki, PhD; of the Endocrine Hypertension Division, Department of Internal Medicine, and Department of Orthopedic Surgery, Brigham and Women's Hospital, Boston, was supported by grants from the National Institute on Aging (NIA) and the National Center for Research Resources (NCRR. These investigators studied women admitted to either Brigham and Women's Hospital or the New England Baptist Hospital, both in Boston, between January 1995 and June 1998.

    A group of 98 postmenopausal women who normally reside in their own homes were chosen for the study. Women with bone deterioration from other causes were excluded from the study.

    There were 30 women with hip fractures caused by osteoporosis and 68 hospitalized for elective joint replacement. Of these 68, 17 women also had osteoporosis as determined by the World Health Organization bone density criteria. All the participants answered questions regarding their lifestyle, reproductive history, calcium in their diet, and physical activity.

    Bone mineral density of the spine, hip, and total body were measured by dual X-ray absorptiometry (DXA) technique, as was body composition. Blood chemistry and urinary calcium levels were analyzed. The two groups of women with osteoporosis did not differ significantly in either time since menopause or bone density in the spine or hip. They did, however, differ in total bone density.

    The women admitted for a hip fracture had fewer hours of exercise than the control group. Fifty percent of the women with hip fractures were deficient in vitamin D, 36.7 percent had elevated parathyroid hormone (PTH) levels (a hormone which can stimulate loss of calcium from bone), and 81.8 percent had calcium in their urine, suggesting inappropriate calcium loss. Blood levels of calcium were lower in the women with hip fractures than in either elective group.

    These researchers propose that vitamin D supplementation at the time of fracture may speed up recovery and reduce risk of fracture in the future. Current Dietary Reference Intake Guidelines contain a daily recommendation of 400 IU of vitamin D for people aged 51 through 70 and 600 IU for those over age 70.

    "We know that a calcium-rich diet and regular weight-bearing exercise can help prevent osteoporosis. This new research suggests that an adequate intake of vitamin D, which the body uses to help absorb calcium, may help women to reduce their risk of hip fracture, even when osteoporosis is present," observed Dr. Evan C. Hadley, NIA Associate Director for geriatrics research.

    "Osteoporosis leads to more than 300,000 hip fractures each year, causing pain, frequent disability, and costly hospitalizations or long-term care. "Prevention of such fractures would greatly improve the quality of life for many older women and men, as well as significantly reduce medical costs." The bones in the body often undergo rebuilding. Some cells, osteoclasts, dissolve older parts of the bones. Then, bone-building cells known as osteoblasts create new bone using calcium and phosphorus.

    As people age, if osteoporosis develops, more bone is dissolved than is rebuilt, and the bones weaken and become prone to fracture. Also in many older persons, levels of vitamin D in the blood are low because they eat less or spend less time in the sun, which stimulates the body's own production of vitamin D.

    Experts do not understand fully the causes of osteoporosis. However, they do know that lack of estrogen which accompanies menopause, diets low in calcium, and lack of exercise contribute to the problem. Eighty percent of older Americans who face the possibility of pain and debilitation from an osteoporosis-related fracture are women. One out of every two women and one in eight men over the age of 50 will have such a fracture sometime in the future. These fractures usually occur in the hip, wrist, and spine.

    -----------------------------

    Sleep Apnea, Diabetes Link Found. Adults who suffer from obstructive sleep apnea are three times more likely to also have diabetes and more likely to suffer a stroke in the future, according to a new UCLA School of Dentistry/Department of Veterans Affairs study published today in the Journal of Oral and Maxillofacial Surgery. Sleep apnea, a serious condition marked by loud snoring, irregular breathing and interrupted oxygen intake, affects an estimated nine million Americans. The culprit? Carrying too many extra pounds.

    "The blame falls squarely on excess weight gain," said Dr. Arthur H. Friedlander, associate professor of oral and maxillofacial surgery at the UCLA School of Dentistry and associate chief of staff at the Veterans Affairs Medical Center in Los Angeles. Surplus weight interferes with insulin's ability to propel sugars from digested food across the cell membrane, robbing the cells of needed carbohydrates. Diabetes results when glucose builds up in the bloodstream and can't be utilized by the body. Being overweight can also lead to obstructive sleep apnea, according to Friedlander.

    "When people gain too much weight, fatty deposits build up along the throat and line the breathing passages," he explained. "The muscles in this region slacken during sleep, forcing the airway to narrow and often close altogether." Reclining on one's back magnifies the situation. "When an overweight person lies down and goes to sleep," Friedlander said, "gravity shoves the fat in the neck backwards. This blocks the airway and can bring breathing to a halt."

    Friedlander tested the blood sugar of 54 randomly selected male veterans whom doctors had previously diagnosed with obstructive sleep apnea. He discovered that 17 of the 54 patients, or 31 percent, unknowingly suffered from adult-onset diabetes. Using the same sample, Friedlander also took panoramic X-rays of the men's necks and jaws. The X-rays indicated that 12 of the 54 patients, or 22 percent, revealed calcified plaques in the carotid artery leading to the brain.

    These plaques block blood flow, significantly increasing patients' risk for stroke. Seven of the 12, or 58 percent, were also diagnosed with diabetes. In dramatic comparison, the 17 patients diagnosed with diabetes showed nearly twice the incidence of blockage. Seven of the 17 men, or 41 percent, had carotid plaques. Only five of the 54 patients who displayed plaques did not have also diabetes. If he conducted this study today, Friedlander notes, he would likely find a higher number of diabetic patients. After he completed the study in 1997, the American Diabetes Association lowered its definition for diabetes from 140 to 126 milligrams of sugar per deciliter of blood.

    "This is the first time that science has uncovered a link between sleep apnea and diabetes," said Friedlander. "The data suggest that someone afflicted with both diabetes and sleep apnea is more likely to suffer a stroke in the future." "Persons going to the doctor for a sleep-apnea exam should request that their blood be screened for diabetes, especially if they are overweight," he cautioned. More than half of the individuals who develop diabetes as adults will need to modify their diet and take daily insulin in order to control the disease, he added.

    ------------------------------

    Stress, Surgery May Increase CA Tumors. Stress and surgery may increase the growth of cancerous tumors by suppressing natural killer cell activity, says a Johns Hopkins researcher.

    Malignancies and viral infections are in part controlled by the immune system's natural killer (NK) cells, a sub-population of white blood cells that seek out and kill certain tumor and virally infected cells. In a study using animal models, natural killer cell activity was suppressed by physical stress or surgery, resulting in a significant increase in tumor development.

    These findings suggest that protective measures should be considered to prevent metastasis for patients undergoing surgery to remove a cancerous tumor, according to Gayle Page, D.N.Sc., R.N., associate professor and Independence Foundation chair at the Johns Hopkins School of Nursing. "Human studies have already found a connection between the level of NK activity and susceptibility to several different types of cancer," says Page, an author of the study.

    "We sought to determine the importance of stress-induced suppression of NK activity and thus learn the effects of stress and surgery on tumor development. "Many patients undergo surgery to remove cancerous tumors that have the potential to spread. If our findings in rats can be generalized to such clinical settings, then these circumstances could increase tumor growth during or shortly after surgery." The research was conducted at Ohio State University College of Nursing and the Department of Psychology at UCLA, where Page held previous positions, and at Tel Aviv University.

    Results of the study are published in the March issue of the International Journal of Cancer. In laboratory studies, Page and her colleagues subjected rats to either abdominal surgery or physical stress, and then inoculated them with cancer cells. In the rats that had undergone surgery, the researchers observed a 200 to 500 percent increase in the incidence of lung tumor cells, an early indicator of metastasis, compared with rats that had not received surgery.

    The experiment also showed that stress increased lung tumor incidence and significantly increased the mortality in the animals inoculated with cancer cells. "Our results show that, under specific circumstances, resistance to tumor development is compromised by physical stress and surgical intervention," says Page.

    "Because surgical procedures are life-saving and cannot be withheld, protective measures should be considered that will prevent suppression of the natural killer cell activity and additional tumor development. "Researchers do not yet know how to prevent surgery-induced immune suppression, but early animal studies have shown increased use of analgesia reduces the risk."

    The study was funded by the National Institutes of Health, and the Chief Scientist of the Israeli Ministry of Health. Lead author was Shamgar Ben-Eliyahu, Ph.D., and other authors were Raz Yirmiya, Ph.D., and Guy Shakhar.

    (https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=599)


    FUNCTIONS
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    Date: July 12, 2005 09:54 AM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: FUNCTIONS

    FUNCTIONS

    The active ingredients in Milk Thistle consist of a complex of compounds which are referred to as silymarin. These substances can actually protect the liver against certain toxins, while simultaneously boosting the function of the liver. Milk Thistle contains some of the most potent liverp rotecting substances known. For this reason, it is an invaluable herb for the treatment of hepatitis, cirrhosis, jaundice and fatty degeneration of the liver.

    In addition, silybin, one of the compounds found in Milk Thistle, has been used as an antidote to the lethal deathcap mushroom whose toxin targets liver cells. Because of this action, in Germany, Milk Thistle has been used to block the action of amanita mushroom poisoning. In the case of mushroom poisoning, the herb is administered Intravenously.

    Studies have indicated that Milk Thistle has valuable therapeutic merit for severe liver disorders and acts as liver restorative as well.1 Not only does it promote new cell growth in the liver, it also prevents the formation of damaging leukotrienes.

    Because the liver plays a vital role in maintaining a healthy immune system, Milk Thistle can contribute to increased disease resistance. This link may explain why it also has value for anyone suffering from psoriasis or chronic fatigue syndrome.

    In addition, Milk Thistle can legitimately be called an antioxidant. It helps protect the cells from free radicals by scavenging them before they can cause cellular damage. Flavonoids have tremendous value as antioxidants and Milk Thistle is rich in them. The flavonoid-like compounds of this herb help to promote cell membrane integrity and to reduce its permeability.

    Milk Thistle also acts to protect the kidneys, brain and other vital organs from toxin damage, treats allergic reactions, reduces inflammation and promotes healing. It also helps to emulsify fats and enhance bile flow, making it a good remedy for indigestion.

    (https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=580)


    Quercetin and Bromelain - for better health.
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    Date: July 04, 2005 10:28 AM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: Quercetin and Bromelain - for better health.

  • Maintains Tissue Comfort by Regulating Enzymes*
  • Helps Maintain Normal Blood Viscosity*
  • Bromelain May Enhance Quercetin Absorption
  • Benefits

    Down-regulates the Body’s Response to Environmental Challenges Quercetin is a member of the flavonoid family, a diverse group of low molecular-weight compounds found throughout the plant kingdom. Flavonoids exhibit numerous biological activities, many of which are directly beneficial to human health. Quercetin, which belongs to the “flavonol” subgroup, is one of the most versatile and important flavonoids. Quercetin has a broad range of activity, much of which stems from its interaction with calmodulin, a calcium-regulatory protein.1 Calmodulin transports calcium ions across cellular membranes, initiating numerous cellular processes. Quercetin appears to act as a calmodulin antagonist.1 Through this mechanism, quercetin functions at the cell-membrane level with a membrane-stabilizing action.2 Quercetin inhibits calmodulin-dependent enzymes present at cell membranes such as ATPases and phospholipase, thereby influencing membrane permeability.3 Quercetin affects other calmodulin-dependent enzymes that control various cellular functions, including the secretion of histamine from mast cells.4 A number of investigations have corroborated quercetin’s ability to reduce histamine secretion from mast cells in various tissues, and also from basophils.5,6,7,8,9,10

    Quercetin modifies the body’s response to antigenic substances.* Suppression of histamine secretion from mast cells is one of quercetin’s most clinically important effects. Quercetin acts on ATPase at the membranes of histamine-containing granules in mast cells.3 Mast-cell degranulation and subsequent release of histamine into the bloodstream is an integral part of the body’s response to environmental challenges.

    Maintains Tissue Comfort by Regulating Enzymes*

    Quercetin’s enzyme-inhibiting action extends to enzymes such as phospholipase, which catalyzes the release of arachidonic acid from phospholipids stored in cell membranes.4,10 Arachidonic acid serves as the key substrate for substances such as thromboxanes, inflammatory prostaglandins and leukotrienes. In addition, quercetin inhibits the enzymes cyclooxygenase and lipoxygenase, which catalyze the conversion of arachidonic acid into its metabolites.4,10,11,12 Reducing levels of these metabolites, as well as histamine levels, is beneficial in maintaining the normal comfort level of body tissues and structures.

    Quercetin has also been shown to limit the function of adhesion molecules on endothelial cells.13 Adhesion molecules are involved in physiologic processes that influence tissue comfort.13

    Bromelain is a complex substance derived from the pineapple stem largely composed of proteolytic (protein-digesting) enzymes. Bromelain acts by a variety of mechanisms to help maintain tissues in a normal state of comfort.14,15 Several investigators, including Taussig16 and Ako, et. al.,17 have presented evidence that bromelain is a fibrinolytic agent, i.e., it induces the breakdown of fibrin, a plasma protein that blocks tissue drainage. The generally accepted mechanisms involve direct proteolysis of fibrin by bromelain and activation of plasmin, a serum protease.16 Plasmin acts on fibrinogen (the precursor to fibrin), forming peptides which stimulate PGE1, a prostaglandin that helps maintain tissue comfort.16

    Helps Maintain Health of Blood Vessels by Modifying Oxidation of LDL Cholesterol* — Quercetin’s Antioxidant Action Quercetin is a versatile and effective antioxidant that scavenges a variety of free-radicals such as hydroxyl and lipid peroxy radicals.18 Quercetin also chelates ions of transition metals such as iron, which can initiate formation of oxygen free radicals.18 LDL cholesterol is vulnerable to oxidation by lipid peroxides. Oxidized LDL is absorbed by macrophages and arterial endothelial cells, leading to the formation of “foam cells,” and eventually plaque deposits, in arterial walls. Quercetin has been shown to protect LDL from oxidation, both by lipid peroxides and transition metal ions.19

    Helps Maintain Normal Blood Viscosity*

    Quercetin inhibits blood platelet aggregation (clumping), by potentiating PGI2, an anti-aggregatory prostaglandin, and by raising platelet cyclic AMP levels.20 Human studies have revealed that bromelain also reduces platelet aggregation.21 These properties qualify both quercetin and bromelain as valuable dietary ingredients for maintaining cardiovascular health.*

    Bromelain May Enhance Quercetin Absorption

    In addition to the actions described above that support the effects of quercetin, bromelain may also assist the absorption of quercetin in the G.I. tract. (Quercetin is generally believed to be poorly absorbed, although a recent study by Hollman et. al.,22 which concluded that humans do in fact absorb appreciable amounts of quercetin, contradicts this assumption.) Studies have shown that bromelain enhances absorption of antibiotics, presumably by increasing permeability of the gut wall.23, 24 Given that quercetin is a low molecular-weight compound, it is plausible that simultaneously ingested bromelain likewise enhances quercetin absorption.

  • *This statement has not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure or prevent any disease.
  • Scientific References

    1. Nishino, H., et. al., “Quercetin interacts with calmodulin, a calcium regulatory protein.” Experientia 1984;40:184-5.
    2. Busse, W.W., Kopp, D.E., Middleton, E., “Flavonoid modulation of human neutrophil function.” J. Allergy Clin. Immunol. 1984;73:801-9.
    3. Havsteen, B,. “Flavonoids, a class of natural products of high pharmacological potency.” Biochemical Pharmacology 1983;32(7):1141-48.
    4. Middleton, E., “The Flavonoids.” Trends in Pharmaceutical Sciences 1984;5:335-8.
    5. Otsuka, H. et. al., “Histochemical and functional characteristics of metachromatic cells in the nasal epithelium in allergic rhinitis: Studies of nasal scrapings and their dispersed cells.” J. Allergy Clin. Immunol.1995;96:528-36.
    6. Fox, C.C., et. al., “Comparison of human lung and intestinal mast cells.” J. Allergy and Clin. Immunol. 1988;81:89-94.
    7. Pearce, F.L., Befus, A.D., Bienenstock, J., “Mucosal mast cells III. Effect of quercetin and other flavonoids on antigen-induced histamine secretion from rat intestinal mast cells.” J. Allergy and Clin. Immunol. 1984;73:819-23.
    8. Middleton, E. Drzewiecki, G., Krishnarao, D., “Quercetin: an inhibitor of antigen-induced human basophil histamine release.” J. of Immunology 1981;127(2):546-50.
    9. Bennett, J.P., Gomperts, B.D., Wollenweber, E.,“ Inhibitory effects of natural flavonoids on secretion from mast cell and neutrophils.” Arzneim. Forsch/Drug Res. 1981;31(3):433-7.
    10. Middleton, E. Drzewiecki G., “Naturally occurring flavonoids and human basophil histamine release.” Int. Archs Allergy appl. Immun. 1985;77:155-7.
    11. Yoshimoto, T. et. al., “Flavonoids: potent inhibitors of arachidonate 5-lipoxygenase.” Biochemical and Biophysical Research Communications 1983;116(2):612-18.
    12. Della Loggia, R., et. al., “Anti-inflammatory activity of benzopyrones that are inhibitors of cyclo- and lipo-oxygenase.” Pharmacological Research Communications 1988; 20(Supp. V):91-94.
    13. Middleton, E., Suresh, A., “Quercetin inhibits lipopolysaccharide-induced expression of endothelial cell Intracellular adhesion molecule-1.” Int. Arch. Allergy Immunol. 1995;107:435-6.
    14. Taussig, S.J., Batkin, S., “Bromelain, the enzyme complex of pineapple (Ananas comosus) and its clinical application.” An Update Journal of Ethnopharmacology 1988;22:191-203.
    15. Lotz-Winter, H., “On the pharmacology of bromelain: An update with special regard to animal studies on dose-dependent effects.” Planta Medica 1990;56:249-53.
    16. Taussig, S.J., “The mechanism of the physiological action of bromelain” Medical Hypothesis 1980;6:99-104.
    17. Ako, H. Cheung, A.H.S., Matsuura, P.K., “Isolation of a fibrinolysis activator from commercial bromelain.” Arch. Int. Pharmacodyn. 1981;284:157-67.
    18. Afanas’ev, I.B. et. al., “Chelating and free radical scavenging mechanisms of inhibitory action of rutin and quercetin in lipid peroxidation.” Biochemical Pharmacology 1989;38(11):1763-69.
    19. De Whalley, C.V., “Flavonoids inhibit the oxidative modification of low density lipoproteins by macrophages.” Biochemical Pharmacology 39(11):1743-50.
    20. Beretz, A. Stierle, A., Anton, R. Cazenave, J., “Role of cyclic AMP in the inhibition of human platelet aggregation by quercetin, a flavonoid that potentiates the effect of prostacyclin.” Biochemical Pharmacology 1981;31(22):3597-600.
    21. Heinicke, R. van der Wal, L. Yokoyama, M., “Effect of bromelain (Ananase®) on human platelet aggregation. ”Experientia 1972;28(7):844.
    22. Hollma, P. et. al., “Absorption of dietary quercetin glycosides and quercetin in healthy ileostomy volunteers.” Am. J. Clin. Nutr. 1995;62:1276-82.
    23. Giller, F.B., “The effects of bromelain on levels of penicillin in the cerebrospinal fluid of rabbits.” A., J. Pharm. 1962;134:238-244.
    24. Bodi, T., “The effect of oral bromelain on tissue permeability to antibiotics and pain response to bradykinin; double-blind studies on human subjects.” Clin. Med. 1965;72:61-65



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    REFERENCES
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    Date: June 25, 2005 08:13 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: REFERENCES

    REFERENCES

    1 a. The Surgeon General’s “Nutrition and Health Report.” b. The Centers for Disease Control and Prevention’s “National Health and Examination Survey (NHANES III)” c. The National Academy of Science’s. Diet and Health Report: Health Promotion and Disease Objectives (DHHS Publication No. (PHS) 91-50213, Washington, DC: US Government Printing Office, 1990). e. Dietary Guidelines for Americans. 2 Rolls BJ. Carbohydrates, fats, and satiety. Am J Clin Nutr 1995; 61(4 Suppl):960S-967S. 3 McDowell MA, Briefel RR, Alaimo K, et al. Energy and macronutrient intakes of persons ages 2 months and over in the United States: Third National Health and Nutrition Examination Survey, Phase 1:1988-91. Advance data from vital and health statistics of the Centers for Disease Control and Prevention; No. 255. Hyattsville, Maryland: National Center for Health Statistics; 1994. 4 Center for Science in the Public Interest and McDonald’s Nutrition and You—A guide to Healthy Eating at McDonald’s: McDonald’s Corp,1991. 5 Bray GA. Appetite Control in Adults. In: Fernstrom JD, Miller GD eds. Appetite and Body Weight Regulation. Boca Raton: CRC Press, 1994:1-92. 6 Michnovicz JJ. How to Reduce Your Risk of Breast Cancer. New York: Warner Book Inc. 1994:54. 7 Carcinogens and Anticarcinogens in the Human Diet. National Research Council Report, National Academy of Sciences, 15 Feb. 1996. 8 Van Tallie TB. Obesity: adverse effects on health and longevity. Am J Clin Nutr 1979:32: 2723-33. 9 Somer E, M.A. R.D. Nutrition for Women. New York: Henry Hold and Company, 1993:273. 10 Swaneck GE, Fishman J. Covalent binding of the endogenous estrogen 16A-hydroxyestrone to estradiol in human breast concer cells: characterization and Intranuclear localization. Proc Natl Acad Sci USA 1988:85;7831-5. 11 Colditz GA. Epidemiology of breast cancer. Findings from the nurses’ health study. Cancer1993;714:1480-9. 12 Hennen WJ. Breast Cancer Risk Reduction. The effects of supplementation with dietary indoles. Unpublished report 1992. 13 Deslypere BJ. Obesity and cancer. Metabolism 1995;44(93):24-7. 14 Somer E, M.A. R.D. Nutrition for Women. New York: Henry Hold and Company, 1993:281. 15 Whittemore AS, Kolonel LN, John M. Prostate cancer in relation to diet, physical activity, and body size in blacks, whites, and Asians in the United States and Canada. J Natl Cancer Inst 1995;87(9):629-31. 16 Key T. Risk factors for prostate cancer. Cancer Survivor 1995;23:63- 77. 17 Kondo Y, Homma Y, Aso Y, Kakizoe T. Promotional effects of twogeneration exposure to a high-fat diet on prostate carcinogenisis in ACI/Seg mice. Cancer Res 1994;54(23):6129-32. 18 Wang Y, Corr JG, Taler HT, Tao Y, Fair WR, Heston WD. Decreased growth of established human prostate LNCaP tumors in nude mice fed a low-fat diet. J Natl Cancer Inst. 1995;87(19):1456-62. 19 Nixon DW. Cancer prevention clinical trials. In-Vivo 1994;8(5):713-6. 20 Key T. Micronutrients and cancer aetiology: the epidmiological evidence. Proceed Nutr Soc 1994;53(3):605-14. 21 Gorbach SL, Goldin BR. The intestinal microflora and the colon cancer connection. Reviews of Infectious Diseases 1990;12(Suppl 2):S252-61. 22 Shrapnel WS, Calvert GD, Nestel PJ, Truswell AS. Diet and coronary heart disease. The National Heart Foundation of Australia. Med J Australia. 1995;156(Suppl):S9-S16. 23 Ellis JL, Campos-Outcalt D. Cardiovascular disease risk factors in native Americans: a literature review. Am. J. Preventive Med 1994;10(5):295-307. 24 DiBianco R. The changing syndrome of heart failure: an annotated review as we approach the 21st century. J. Hypertension 1994; 12(4 Suppl):S73- S87. 25 Van Itallie TB. Obesity: adverse effects on health and longevity. Am J Clin Nutr 1979;32(suppl):2723-33. 26 Kestin M, Moss R, Clifton PM, Nestel PJ. Comparative effects of three cereal brans on plasma lipids, blood pressure and glucose metabolism in mildly hyper-cholesterolemic men. Am J Clin Nutr 1990;52(4):661-6. 27 Story JA. Dietary fiber and lipid metabolism. In: Spiller GA, Kay RM. eds. Medical Aspects of Dietary Fiber. Penun Medical; New York, 1980, p.138. 28 Stein PP, Black HR. The role of diet in the genesis and treatment of hypertension. Med. Clin. North America. 1993;77(4):831-47. 29 Olin JW. Antihypertensive treatment in patients with peripheral vascular disease. Cleve. Clin. J. Medicine. 1994;61(5):337-44. 30 Tinker LF. Diabetes Mellitus—a priority health care issue for women. J. Am. Dietetic Association. 1994;94(9):976-85. 31 Gaspard UJ, Gottal JM, van den Brule FA. Postmenopausal changes of lipid and glucose metabolism: a review of their main aspects. Maturitas. 1995;21(3):71-8. 32 Coordt MC, Ruhe RC, McDonald RB. Aging and insulin secretion. Proc. Soc. Exp. Biology and Medicine. 1995;209(3):213-22. 33 Felber JP. From Obesity to Diabetes. Pathophysiological Considerations. Int. Journal of Obesity 1992;16:937-952. 34 Gillum RF. The association of body fat distribution with hypertension, hypertensive heart disease, coronary heart disease, diabetes, and cardiovascular risk factors in men and women age 18-79. J Chronic Diseases 1987;40:421-8. 35 Haffner SM, Stern MP, Hazuda HP, et al. Role of obesity and fat distribution in non-insulin-dependent diabetes mellits in Mexican Americans and non- Hispanic whites. Diabetes Care 1986;9:153-61. 36 Bonadonna RC, deFronzo RA. Glucose metabolism in obesity and type 2 diabetes. Diabetes and Metabolism. 1991;17(1 Pt. 2):12-35. 37 Shoemaker JK, Bonen A. Vascular actions of insulin in health and disease. Canadian J. of Applied Physiology. 1995;20(2):127-54. 38 Resnick LM. Ionic Basis of Hypertension, Insulin Resistaince, Vascular Disease, and Related Disorders. The Mechanism of ‘Syndrome X’. Am. J. Hypertension. 1993;6(suppl):123S-134S. 39 Trautwein EA. Dietetic influences on the formation and prevention of cholesterol gallstones. Z. Ernahrugswiss. 1994;33(1):2-15. 40 Cicuttini FM, Spector TD. Osteoarthritis in the aged. Epidemiological issues and optimal management. Drugs and Aging. 1995;6(5):409-20. 41 Melnyk MG, Wienstein E. Preventing obesity in black women by targeting adolescents: a literature review. J Am. Diet. Association. 1994;94(4):536-40. 42 Robinson BE, Gjerdingen Dk, Houge DR. Obesity: a move from traditional to more patient-oriented management. J. Am. Board of Family Practice. 1995;8(2):99-108. 43 Dulloo AG, Miller DS. Reversal of Obesity in the Genetically Obese fa/fa Zucker Rat with an Ehpedrine/Methylxanthines Thermogenic Mixture. J. Nutrition. 1987;117:383-9. 44 Dulloo AG, Miller DS. The thermogenic properties of ephedrin/methylxanthine mixtures: animal studies. Am J Clinical Nutr. 1986;43:388-394. 45 Richelsen B. Health risks of obesity. Significance of the regional distri-bution of adipose tissue. Ugeskr. Laeger. 1991;153(13):908-13. 46 Lissner L, Heitmann BL. Dietary fat and obesity: Evidence from epidemiology. European J. Clinical Nutrition. 1995;49(2):79-90. 47 Lissner L, Heitmann BL. The dietary fat: Carbohydrate ratio in relation to body weight, Current Opinion in Lipidology. 1995;6(1):8-13. 48 Ravussin E. Energy metabolism in obesity. Studies in the Pima Indians. Diabetes Care. 1993;16(1):232-8. 49 O’Dea K. Westernisation, insulin resistance and diabetes in Australian aborigines. Med J. Australia. 1991;155(4):258-64. 50 Bailey C. Fit or Fat . Houghton Mifflen, Boston, 1991. 51 McCarty MF. Optimizing Exercise for Fat Loss. Unpublished report. 52 Weinsier RL, Schutz Y, Bracco D. Reexamination of the relationship of resting metabolic rate and fat-free mass and the the metabolically active components of fat-free mass in humans. Am. J. Clinical Nutrition. 1992;55(4):790-4. 53 Evans WJ. Exercise, nutrition and aging. J. Nutrition. 1992;122(3 suppl):796-801. 54 Schlicker SA, Borra ST, Regan C. The weight and fitness status of United States children. Nutrition Reviews. 1994;52(1):11-7. 55 Raben A, Jensen ND, Marckmann P, Sandstrom B and Astrup A. Spontaeous weight loss during 11 weeks’ ad libitum intake of a low fat/high fiber diet in young, normal weight subjects. Stockholm Press. 1995;916-23. 56 Blundell JE, Cotton JR, Delargy H, Green S, Greenough A, King NA, Lawton, CL. The fat paradox: fat-induced satiety signals versus high fat overconsumption. Short Communication 1995:832-835. 57 Reinhold RB. Late results of gastric bypass surgery for morbid obesity. J Am Coll Nutr 1994;13(4):307-8. 58 McCredie M, Coates M Grulich A. Cancer incidence in migrants to New South Wales (Australia) from the Middle East, 1972-1991. Cancer Causes Control 1994:5(5):414-21. 59 Schiff ER, Dietschy JM. Steatorrhea Associated with Disordered Bile Acid Metabolism. Am. J. Digestive Diseases. 1969;14(6) 60 Nauss JL , Thompson JL and Nagyvary J. The binding of micellar lipids to Chitosan. Lipids. 1983;18(10):714-19. 61 Braconnot H, Sue la natrue ces champignons. Ann Chim Phys 1811;79:265. 62 Odier A. Memoire sur la composition chemique des parties cornees des insectes. Mem Soc Hist Nat Paris 1823;1:29. 63 Johnson EL, Peniston QP. Utilization of shellfish waste for chitin and Chitosan production. Chp 19 In: Chemistry and Biochemistry of Marine Food Products. Martin RE, Flick GJ, Hebard CE and Ward DR (eds.) 1982. p.415-. AVI Publishing Co., Westport, CT. 64 Shahram H. Seafood waste: the potential for industrial use. Kem Kemi 1992;19(3),256-8. 65 Rouget C. Des substances amylacees dans le tissue des animux, specialement les Articules (Chitine). Compt Rend 1859;48:792. Commission on Natural Health Products. 1995 67 Peniston QP and Johnson EL. Method for Treating an Aqueous Medium with Chitosan and Derivatives of Chitin to Remove an Impurity. US Patent 3,533,940. Oct. 30:1970. 68 Poly-D-Glucosamine (Chitosan); Exemption from the Requirement of a Tolerance. Federal Register. 1995;60(75):19523-4. Rules and Regulations. Environmental Protection Agency 40 CFR Part 180. April, 19, 1995. 69 Arul J. “Use of Chitosan films to retard post-harvest spoilage of fruits and vegetables,” Chitin Workshop. ICNHP, North Carolina State University, Raleigh, NC. 70 Karlsen J, Skaugrud O. “Excipient properties of Chitosan,” Manufacturing Chemist. 1991;62:18-9. 71 Winterowd JG, Sandford PA. Chitin and Chitosan. In: Food Polysaccharides and their Applications. Ed: Stephen AM. Marcel Dekker 1995. 72 Chitin Workshop. ICNHP, North Carolina State University, Raleigh, NC. 73 Advances in Chitin and Chitosan. Eds: CJ Brine, PA Sandford, JP Zikakis. Elsevier Applied Science. London. 1992. 74 Chitin in Nature and Technology. Eds: R Muzzarelli, C Jeuniaux, GW Gooday. Plenum Press, New York. 1986. 75 Zikakis, JP. Chitin, Chitosan and Related Enzymes. Academic Press, Inc. 1984. 76 Abelin J and Lassus A. Fat binder as a weight reducer in patients with moderate obesity. ARS Medicina, Helsinki, Aug- October, 1994. 77 Kanauchi O, Deuchi K, Imasato Y, Shizukuishi M, Kobayashi E. Increasing effect of a Chitosan and ascorbic acid mixture on fecal dietary fat excretion. Biosci Biotech Biochem 1994;58(9):1617-20. 78 Maezaki Y, Tsuji K, Nakagawa Y, et al. Hypocholesterolemic effect of Chitosan in adult males. Biosci Biotchnol Biochem1993;57(9):1439-44. 79 Kobayashi T, Otsuka S, Yugari Y. Effect of Chitosan on serum and liver cholesterol levels in cholesterol-fed rats. Nutritional Rep. Int., 1979;19(3):327-34. 80 Sugano M, Fujikawa T, Hiratsuji Y, Hasegawa Y. Hypocholesterolemic effects of Chitosan in cholesterol-fed rats. Nutr Rep. Int. 1978;18(5):531-7. 81 Vahouny G, Satchanandam S, Cassidy M, Lightfoot F, Furda I. Comparative effects of Chitosan and cholestryramine on lymphatic absorption of lipids in the rat. Am J Clin Nutr, 1983;38(2):278-84 82 Suzuki S, Suzuki M, Katayama H. Chitin and Chitosan oligomers as hypolipemics and formulations containing them. Jpn. Kokai Tokkyo Koho JP 63 41,422 [88,422] 22 Feb1988. 83 Ikeda I, Tomari Y, Sugano M. Interrelated effects of dietary fiber on lymphatic cholesterol and triglyceride absorption in rats. J Nutr 1989;119(10):1383- 7. 84 LeHoux JG and Grondin F. Some effects of Chitosan on liver function in the rat. Endocrinology. 1993;132(3):1078-84. 85 Fradet G, Brister S, Mulder D, Lough J, Averbach BL. “Evaluation of Chitosan as a New Hemostatic Agent: In Vitro and In Vivo Experiments In Chitin in Nature and Technology. Eds: R Muzzarelli, C Jeuniaux, GW Gooday. Plenum Press, New York. 1986. 86 Malette W, Quigley H, Gaines R, Johnson N, Rainer WG. Chitosan A New Hemostatic. Annals of Thorasic Surgery. 1983;36:55. 87 Malette W, Quigley H, Adickes ED. Chitosan effect in Vascular Surgery, Tissue Culture and Tissue Regeneration. In R Muzzarelli, C Jeuniaux, GW Gooday, Eds: Chitin in Nature and Technology. Plenum Press, New York. 1986. 88 Okamoto Y, Tomita T, Minami S, et al. Effects of Chitosan on experimental abscess with Staphylococcus aureus in dogs. J. Vet. Med., 1995;57(4):765-7. 89 Klokkevold PR, Lew DS, Ellis DG, Bertolami CN. Effect of Chitosan on lingual hemostasis in rabbits. Journal of Oral-Maxillofac-Surg, 1991;Aug. 49(8):858-63. 89 Surgery, Tissue Culture and Tissue Regeneration. In Chitin in Nature and Technology. Eds: R Muzzarelli, C Jeuniaux, GW Gooday. Plenum Press, New York. 1986. 90 Hiroshi S, Makoto K, Shoji A, Yoshikazu S. Antibacterial fiber blended with Chitosan. Sixth International Conference on Chitin and Chitosan. Sea Fisheries Institute, Gdynia, Poland. August 1994;16-19. 91 Shimai Y, Tsukuda K, Seino H. Antiacne preparations containing chitin, Chitosan or their partial degradation products. Jpn. Kikai Tokkyo Koho JP 04,288,017 [92,288,017] 13 Oct 1992. 92 Suzuki K, Okawa Y, Suzuki S, Suzuki M. Candidacidal effect of peritoneal exudate cells in mice administered with chitin or Chitosan: the role of serine protease in the mechanism of oxygen-independent candidacidal effect. Microbiol Immunol. 1987;31(4):375-9. 93 Sawada G, Akaha Y, Naito H, Fujita M. Synergistic food preservatives containing organic acids, Chitosan and citrus seed extracts. Jpn, Kokai Kokkyo Koho JP 04 27,373 [92 27,373] 30 Jan 1992. 94 Min H-K, Hatai K, Bai S. Some inhibitory effects of Chitosan on fishpathogenic oomycete, Saprolegnia parasitic. Gyobyo Kenkyu, 1994;29(2):73-4. 95 Nelson JL, Alexander JW, Gianotti L, Chalk CL, Pyles T. The influence of dietary fiber on microbial growth in vitro and bacterial translocation after burn injury in mice. Nutr 1994;10(1):32-6. 96 Ochiai Y, Kanazawa Y. Chitosan as virucide. Jpn Kokai Tokkyo Koho 79 41,326. 97 Hillyard IW, Doczi J, Kiernan. Antacid and antiulcer properties of the polysaccharide Chitosan in the rat. Proc Soc Expl Biol Med 1964; 115:1108-1112. 98 Shibasaki K, Sano H, MatsukuboT, Takaesu Y. pH response of human dental plaque to chewing gum supplemented with low molecular Chitosan. Bull- Tokyo-Dent-Coll, 1994:35(2): 61-6. 99 Kato H, Okuda H. Chitosan as antihypertensive. Jpn. Kikoi Tokyo Koho JP 06 56,674 [94 56,674] 100 Kato H, Taguchi T. Mechanism of the rise in blood pressure by sodium chloride and decrease effect of Chitosan on blood pressure. Baiosaiensu to Indasutori 1993;51(12):987-8. 101 Muzzarelli R, Biagini G, Pugnaoni A, Filippini O, Baldassarre V, Castaldini C, and Rizzoli C. Reconstruction of Periodontal Tissue with Chitosan. Biomaterials. 1989;10:598-603. 102 Sapelli P, Baldassarre V, Muzzarelli R, Emanuelli M. Chitosan in Dentistry. In Chitin in Nature and Technology. Eds: R Muzzarelli, C Jeuniaux, GW Gooday. Plenum Press, New York. 1986. 103 Borah G, Scott G, Wortham K. Bone induction by Chitosan in endochrondral bones of the extremities. In Advances in Chitin and Chitosan. Eds: CJ Brine, PA Sandford, JP Zikakis. Elsevier Applied Science. London. 1992. 104 Ito F. Role of Chitosan as a supplementary food for osteoporosis. Gekkan Fudo Kemikaru, 1995;11(2):39-44. 105 Nakamura S, Yoshioka T, hamada S, Kimura I. Chitosan for enhancement of bioavailability of calcium. Jpn. Kokai Tokkyo Koho JP 07 194,316 [95 194,316] 01 Aug 1995. 106 Maekawa A, Wada M. Food Containing chitin or its derivatives for reduction of blood and urine uric acid. Jpn. Kokai Tokkyo Koho JP 03 280,852 [91 280,852], 11 Dec 1991. 107 Weisberg M, Gubner R. Compositions for oral administration comprising Chitosan and a pharmaceutically acceptable carrier. Antacid preparations for alleviating gastric hyperacidity. U.S. patent 3257275 108 Kanauchi O, Deuchi K, Imasato Y, Shizukuishi M, Kobayashi E. Mechanism for the inhibition of fat digestion by Chitosan and for the synergistic effect of ascorbate. Biosci Biotech Biochem1995;59(5):786-90. 109 McCausland CW. Fat Binding Properties of Chitosan as Compared to Other Dietary Fibers. Private communication. 24 Jan1995. 110 Deuchi K, Kanauchi O, Imasato Y, Kobayashi E. Biosci Biotech Biochem. 1994:58,1613-6. 111 Ebihara K, Schneeman BO. Interaction of bile acids, phospholipids, cholesterol and triglyceride with dietary fibers in the small intestine of rats. J Nutr 1989;119(8):1100-6. 112 Weil A, M.D. Natural Health Natural Medicine: Boston: Houghton Mifflin, 1990:182. 113 Chen Y-H, Riby Y, Srivastava P, Bartholomew J, Denison M, Bjeldanes L. Regualtion of CYP1A1 by indolo[3,2-b]carbazole in murine hepatoma cells. J Biol Chem 1995;270(38):22548-55. 114 Intestinal Absorption of metal ions and chelates. Ashmead HD, Graff DJ, Ashmead HH. Charles C Thomas, Springfield, IL 1985. 115 Nutrient Interactions. Bodwell CE, Erdman JW Jr. Marcel Dekker New York 1988. 116 Heleniak EP, Aston B. Prostaglandins, Brown Fat and Weight Loss. Medical Hypotheses 1989;28:13-33. 117 Connor WE, DeFrancesco CA, Connor SL. N-3 fatty acids from fish oil. Effects on plasma lipoproteins and hypertriglyceridemic patients. Ann NY Acad Sci 1993;683:16-34. 118 Conte AA. A non-prescription alternative in weight reduction therapy. The Bariatrician Summer 1993:17-19. 119 McCarty MF. Inhibition of citrate lyase may aid aerobic endurance. Unpublished manuscript. 120 Bray GA. Weight homeostasis. Annual Rev Med 1991;42:205-216. 121 Dulloo AG, Miller DS. The thermogenic properties of Ephedrin/Methylxanthine mixtures: Human studies. Intl J Obesity 986;10:467-481. 122 Arai K, Kinumaki T, Fujita, T. Bulletin Tokai Regional Fisheries Res Lab. 1968;No. 56. 123 Bough WA. Private communication. 124 Freidrich EJ, Gehan, EA, Rall DP, Schmidt LH, Skipper HE. Cancer Chemotherapy Reports 1966;50(4):219-244. 125 A Drovanti, AA Bignamini, AL Rovati. Therapeutic activity of oral glucosamine sulfate in osteoarthritis: A placebo-controlled double-blind investigation. Clinical Therapeutics 1980;3(4):260-272. 126 K Deuchi, O Kanauchi, M Shizukuishi, E Kobayashi. Continuous and massive intake of Chitosan affects mineral and fat-soluble vitamin status in rats fed on a high-fat diet. Biosci. Biotech. Biochemistry. 1995;59(7):1211-6. 127 . BesChitin W in Chitin Wound Healing (video), Unitika Corporation, April 1992.

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    CHITOSAN SAFETY
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    Date: June 25, 2005 08:04 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: CHITOSAN SAFETY

    CHITOSAN SAFETY

    Chitosan is not only very useful, it is also very safe. Chitosan has been used extensively in nummerous industrial, health, and food applications.66,71 Nevertheless, all substances when taken improperly or in gross excess can be detremental to our well-being. For example, water is normally safe when swallowed. On the other hand, breathing large amounts of water can be deadly. Similarly breathing air is relatively safe whereas Intraveneous injections of air are usually fatal. To determine the relative safety of various foods, scientists run experiments to determine the food’s toxic level or LD50. Chitosan has been found to have an LD50 of over 16 grams/day/kg body weight in mice.122 Chitosan is a fiber which expands to form a gel in the acidic environment of the stomach. The problems encountered with extremely high doses of chitosan were caused by gastric dehydration and impaction due to the expansion of the fiber.123 To put these data in context, the authors compared Chitosan to common sugars stating “[I]t appears that chitosan is less toxic than these substances.”122 Mice are not men. For safety purposes data gathered in mice is divided by 12 to get the human equivalent.124 The relative LD50 in humans then would be 1.33 grams/day/kg. Given that an average person weighs 150 pounds or 70 kg, this means that the toxic amount for a person would be greater than 90 grams per day. Conservatively, one could feel very confident below the 10% level, or 9 grams per day. Clinical studies have used amounts in the 3-6 grams per day range with no adverse effects. As with any fiber, a person is well advised to drink plenty of water. Changing our diets affects our colon function. Constipation or diarrehea may occur in some persons depending on their individ-ual constitutions and on how well the Chitosan supplement was originally formulated. Even though Chitosan is not digestible by our enzymes, it can and is degraded by soil and water microorganisms. This makes Chitosan environmentally friendly. This was recently acknowledged by the US Environmental Protection Agency when it exempted Chitosan from tolerance level testing.68 Any breakdown of chitosan by our colon microflora would release D-glucoseamine which is itself a wonderfully beneficial nutrient for osteoarthritis sufferers.125 Because Chitosan can bind lipids and certain minerals, it is best to take essential fatty acid supplements, fat soluble vitamins and mineral supplements separate from Chitosan. Taking Chitosan with D- or L-ascorbic acid helps increase the amount of fat bound and decrease the loss of minerals. 77,126

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    INFECTIONS AND GARLIC
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    Date: June 25, 2005 10:12 AM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: INFECTIONS AND GARLIC

    INFECTIONS AND GARLIC

    Bacterial Infections

    With the advent of modern antibiotic drugs, garlic lost its status as an effective infection fighter. Unfortunately, Garlic’s past track record was diminished by the arrival of new and potent antibiotics like penicillin. Ironically, several years ago, garlic was reported to be more valuable than penicillin when treating throat infections.26

    One reason for this may be that the allicin component of garlic is effective against the streptococci bacteria. Traditional Oriental medicine utilized garlic in a variety of forms to treat all kinds of infections: garlic juice for typhoid, and meningitis, garlic vapors for whooping cough, garlic suppositories for yeast infections and garlic soup for pneumonia.27 According to studies in the Journal of the National Medical Association, Garlic has proved its ability to act as a potent antibiotic against various gram-negative, gram-positive and acid fast bacteria.

    In view of the fact that garlic has even been shown to be effective against some antibiotic-resistent organisms, it should be utilized more in standard medical treatments. Several medical practitioners have discovered that like throat infections, ear infections also respond nicely to garlic. The great advantage of using garlic over antibiotics is that Garlic will not kill friendly intestinal bacteria or make one more susceptible to future infections. Antibiotics will. In cases where antibiotics are deemed necessary, they should at the very least be supplemented with garlic.

    Current research supports the fact that garlic does indeed inhibit bacterial growth.28 Several strains of Mycobacterium are suppressed by the presence of garlic. For anyone who fights chronic bladder infections, garlic may prove invaluable. It has been shown to inhibit the growth of several organisms associated with urinary tract infections.29

    Evidence suggests that garlic can effectively treat bacterial ear infections, sore throats, and infected wounds. Several reports have shown that aged garlic extract is particularly effective for the kind of ear infections that children are prone to develop. (Note: Ingesting raw garlic is not a practical way to utilize its allicin compounds as an effective antibiotic. Too much raw garlic would be required to be effective.)

    Viral Infections

    It is common knowledge that as of now, viruses do not respond to antibiotics and are extremely resistent to other forms of treatment. A virus usually has to run its course, as those of us who suffer periodically from colds and flu know all too well. Because viruses are so hardy, it is important to know that garlic possesses antiviral as well as antibacterial properties. Dr. Andrew Weil M.D. states that the best home remedy he has found for the treatment of colds is to eat several cloves of raw garlic at the first indication that a cold is developing.30 Several laboratory tests have shown that garlic is an effectual treatment for both the influenza B virus and herpes simplex virus.31

    Two independent researchers in Japan and Romania have found that garlic is able to protect living organisms form the influenza virus.32 Chinese scientists have studies the effect of garlic on viral encephalitis for almost 30 years.

    Clarissa McCord of Cloverdale, British Columbia used garlic extract to treat a stubborn virus that attacks horses. She relates:

    “A bottle of liquid garlic administered on two successive days to each animal does the job of curing. One of my race hors es developed the virus symptoms and was to be scratched from the racing program scheduled for the following day. I gave one bottle of liquid garlic to the animal and he improved sufficiently to enter the race. He hit the board first, second and third.”33

    In relation to human beings, it would seem that Garlic is especially effective in cases of influenza as both a treatment to shorten the duration of the disease and as a preventative. Again, garlic’s ability to stimulate the immune system seems intrinsically linked to its anti-viral action. Whether the infection is bacterial or viral, garlic mobilizes immune function, thereby potentiating the body’s ability to defend itself against infectious organisms.

    Fungal Infections

    Garlic in certain forms is considered a potent antibiotic and can be particularly effective against certain fungal infections. Like viruses, fungal infections are particularly difficult to treat . Traditional medical treatments for fungal infections are usually toxic and can be ineffectual over the long term. To the contrary, garlic has proven itself as an effective anti-fungal agent against candida, aspergillus and cryptococci.

    A report from a Chinese medical journal delineates the use of Intravenous garlic to treat a potentially fatal and rare fungal infection of the brain called cryptococcal meningitis. In the report, the Chinese compared the effectiveness of the garlic with standard medical treatment which involved a very toxic antibiotic called Amphotericin-B. The study revealed that Intravenous garlic was more effective than the drug and was not toxic regardless of its dosage.34

    One study using liquid garlic extract found that candida colonies were substantially reduced in mice that had been treated with the garlic. This same study also revealed that garlic stimulated phagocytic activity. This implies that infections such as candida may be controlled because garlic stimulates the body’s own defenses. Applied externally, garlic oil can be used to treat ringworm, skin parasites and warts. Lesions that were caused by skin fungi in rabbits and guinea pigs were treated with external applications of garlic extract and began to heal after seven days.35

    Allicin is primarily a fungistatic substance which can slow or completely stop the proliferation of the microorganisms. As an external treatment, garlic has also been found to effectively treat acne and thrush.

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    SUMMARY
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    Date: June 24, 2005 03:47 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: SUMMARY

    SUMMARY

    Echinacea can be used for a number of different disorders, h owe ve r, its primary strength is its ability to pre vent and treat infections. It can be considered a blood purifier which helps to neutralize the effects of venoms and chemical toxins in the blood and as a vital immune system booster. It has been used for everything from yeast infections to ulcers, to tuberculosis and gangrene. Echinacea can be thought of as a natural antibiotic and is especially beneficial for colds, flu, and sore throats. Combining echinacea with Myrrh is thought to potentiate its action.

    Echinacea can actually suppress immune function when that function is not desireable as seen in allergies and arthritis. In these conditions, it acts as a natural anti-inflammatory. The safety of echinacea has been shown in a number of laboratory tests using oral or Intravenous applications of the herb. It has been proven to be virtually non-toxic in doses amounting to many times the human therapeutic dose.27 Echinacea is one of the most useable plants in the herb kingdom and is applicable in the fields of both homeopathy and allopathic medicine.

    Whether you pronounce echinacea with a soft or hard “ch” sound, it should be considered a powerful immune system booster.

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    ENDNOTES
    TopPreviousNext

    Date: June 23, 2005 11:50 AM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: ENDNOTES

    ENDNOTES


    1 G.A. Cordell and O.E. Araujo, “Capsaicin: Identification, nomenclature, and pharmacotherapy.” Ann. Pharmacother. 27: 1993, 330-336.
    2 A.Y. Leung. Encyclopedia of Common Natural Ingredients used in Food. (John Wiley and Sons, New York: 1980.
    3 Cordell, 330-36.
    4 J.J. Jang, D.E. Defor, D.L. Logsdon and J.M. Ward. “A 4-week feeding study of ground red chile (Capsicum annuum) in male mice.” F o o d - C h e m - T o x i c o l . S e p t . 1992 30 (9): 783-7.
    5 John R. Christopher. Capsicum. (Christopher Publications, Springville, Utah: 1980), 27.
    6 Jack Ritchason. The Little Herb Encyclopedia, 3rd ed. (Woodland Publishing, Pleasant Grove, Utah: 1994), 44.
    7 Christopher, 4.
    8 Juliette Bairacli-Levy. Common Herbs for Natural Health. (Schocken Books, New York: 1974), 41-43.
    9 Charles B. Heiser. Nightshades. (W.H. Freeman, San Francisco: 1969), 18.
    10 Lenden H. Smith, M.D., E.P. Donatelle, M.D., Vaughn Bryant, Ph.D. et al. Basic Natural Nutrition. (Woodland Books, Pleasant Grove, Utah: 1984), 157.
    11 J. Jurenitsch et al. “Identification of cultivated taxa of Capsicum: taxonomy, anatomy and composition of pungent principle.” Chemical Abstracts. 91 July 30, 1977: 35677g.
    12 Daniel B. Mowrey. The Scientific Validation of Herbal Medicine. (Keats Publishing, New Canaan, Connecticut: 1986), 159.
    13 Ibid., 208-09.
    14 Michael T. Murray. The Healing Power of Herbs, 2nd ed. (Prima Publishing, Prima, California: 1995), 71.
    15 J. De Lille and E. Ramirez. “Pharmacodynamic action of the active principles of chile (capsicum annuum L.) Anales Inst. Biol. 1935: 6, 23-37. See also C.C. Toh, T.S. Lee et al. “The pharmacological actions of capsaicin and its analogues.” B r i t i s h Journal of Pharmacology. 1955: 10, 175-182.
    16 N.A. Castle. “Differential inhibition of potassium currents in rat ventricular myocytes by capsaicin.” Cardiovasc-Res. Nov. 1992, 26 (11): 1137-44.
    17 Murray, The Healing Power of Herbs, 72.
    18 Ritchason, 46.
    19 T. Kawada, et al. “Effects of capsaicin on lipid metabolism in rates fed a high fat diet.” Journal of Nutrition. 1986: 116, 1272-78. See also J.P. Wang, et al. “Antiplatelet effect of capsaicin.” Thrombosis Res. 1984: 36, 497-507, and S. Visudhiphan, et al. “The relationship between high fibrinolytic activity and daily capsicum ingestion in Thais.” American Journal of Clinical Nutrition. 1982: 35, 1452-58.
    20 K. Sambaiah and N. Satyanarayana. “Hpocholesterolemic effect of red pepper and capsaicin.” Indian Journal of Experimental Biology. 1980: 18, 898-99. See also M.R. Srinivasan, et al. “Influence of red pepper and capsaicin on growth, blood constituents and nitrogen balance in rats.” Nutrition Reports International. 1980: 21 (3): 455-67.
    21 Mowrey, 12.
    22 Ibid.
    23 Toh, 175-182.
    24 Mowrey, 12.
    25 Ibid., 19-20.
    26 Louise Tenney. The Encyclopedia of Natural Remedies. (Woodland Publishing, Pleasant Grove, Utah: 1995), 42. See also Peter Holmes. The Energetics of Western Herbs. (Artemis Press, Boulder: 1989), 322.
    27 Y. Lee, et al. “Flavonoids and antioxidant activity of fresh pepper (Capsicum annuum) cultivars.” Journal of Food Science. May 1995: 60 (3): 473-76. See also L.R. Howard, et al. “Provitamin A and ascorbic acid content of fresh pepper cultivars (Capsicum annuum) and processed jalapenos.” Journal of Food Science. M a r c h , 1994: 59 (2): 362-65.
    28 J.J. Espinosa-Aguirre, et al. “Mutagenic activity of urban air samples and its modulation by chile extracts.” Mutat-Res. Oct. 1993: 303 (2): 55-61.
    29 Ibid.
    30 Howard, 362-65.
    31 Z. Zhang, S.M. Hamilton, et al. “Inhibition of liver microsomal cytochrome P450 activity and metabolism of the tobacco-specific nitrosamine NNK by capsaicin and ellagic acid.” Anticancer-Res. Nov-Dec. 1993: 13 (6A): 2341-46.
    32 C.H. Miller, Z. Zhang, et al. “Effects of capsaicin on liver microsomal metabolism of the tobacco-specific nitrosamine NNK.” Cancer-Lett. Nov. 30, 1993: 75 (1): 45- 52.
    33 Murray, The Healing Power of Herbs, 71.
    34 Cordell, 330-36. See also Murray, The Healing Power of Herbs, 70-71.
    35 Murray, The Healing Power of Herbs, 72.
    36 C.P.N. Watson, et al. “The post-mastectomy pain syndrome and the effect of topical capsaicin.” Pain. 1989: 38, 177-86. See also C.P.N. Watson and R.J. Evans. “The post-mastectomy pain syndrome and topical capsaicin: A randomized trial.” Pain. 1992: 51, 375-79.
    37 Murray, The Healing Power of Herbs, 73.
    38 Watson, 177-86.
    39 C. Nelson. “Heal the burn: Pepper and lasers in cancer pain therapy.” Journal of the National Cancer Institute. 1994: 86, 1381.
    40 Ibid.
    41 “The capsaicin study group: Effect of treatment with capsaicin on daily activities of patients with painful diabetic neuropathy.” Diabetes Care. 1992: 15, 159-65. See also R. Tanden, et al. “Topical capsaicin in painful diabetic neuropathy. Effect on sensory function.” Diabetes Care. 1992: 15, 8-14, K.M. Basha and F.W. Whitehouse. “Capsaicin: A therapeutic option for painful diabetic neuropathy.” Henry Ford Hospital Medical Journal. 1991: 39, 138-40, and M.A. Pfeifer, et al. “A highly successful and novel model for treatment of chronic painful diabetic peripheral neuropathy.” Diabetes Care. 1993: 16, 1103-15.
    42 R. Tanden, et al. “Topical capsaicin in painful diabetic neuropathy: controlled study with long- term follow-up.” Diabetes Care. Jan. 1992: 15 (1): 8-14.
    43 Ibid.
    44 J.E. Bernstein, et al. “Topical capsaicin treatment of chronic post-herpetic neuralgia (shingles) with topical capsaicin. A preliminary study. Journal of American Academy of Dermatologists. 1987: 17, 93-96. See also Murray, The Healing Power of Herbs, 72.
    45 Sid Kircheimer. The Doctor’s Book of Home Remedies. (Rodale Press, Emmaus, Pennsylvania: 1993), 228.
    46 Murray, The Healing Power of Herbs, 74.
    47 G.M. McCarthy and D.J. McCarty. “Effect of topical capsaicin in therapy of painful osteoarthritis of the hands.” Journal Rheumatol. 1992: 19, 604-07. See also C. L Deal, et al. “Treatment of arthritis with topical capsaicin: A double blind trial.” Clinical Therapy. 1991: 13, 383-95.
    48 Murray, The Healing Power of Herbs, 74.
    49 Kircheimer, 14.
    50 Murray, The Healing Power of Herbs, 74.
    51 Michael T. Murray, N.D. and Joseph Pizzorno, N.D. Encyclopedia of Natural Medicine. (Prima Publishing, Rocklin, California: 1991), 419.
    52 J. Y. Kang, et al. “The effect of chile ingestion of gastrointestinal mucosal proliferation and azoxymethane-induced cancer in the rat.” Journal of Gastroenterology- Hepatol. Mar-Apr. 1992: 7 (2): 194-98.
    53 K. G. Yeoh, et al. “Chile protects against aspirin-induced gastroduodenal mucosal injury in humans.” Dig-Dis-Sci. Mar. 1995: 40 (3): 580-83.
    54 Ibid.
    55 Ibid.
    56 L. Limlomwongse, et al. “Effect of capsaicin on gastric acid secretion and mucosal blood flow in the rat.” Journal of Nutrition. 1979: 109, 773-
    77. See also T. Kolatat and D. Chungcharcon. “The effect of capsaicin on smooth muscle and blood flow of the stomach and the intestine.” Siriraj Hospital Gazette. 1972: 24, 1405-18, O. Ketusinh, et al. “Influence of capsaicin solution on gastric acidities.” A m e r i c a n Journal of Proceedings. 1966: 17, 511-15, and Mowrey, 48.
    57 Mowrey, 48 and Limlomwongse, 773-77.
    58 M. Horowitz, et al. “The effect of chile on gastrointestinal transit.” Journal of Gastroenterology-Hepatol. Jan-Feb, 1992 7 (1): 52-56.:
    59 Christopher Hobbs. “Cayenne, This Popular Herb is Hot.” Let’s Live. April 1994: 55.
    60 V. Badmaev and M. Majeed. “Weight loss, the Ayurvedic system.” Total Health. Aug, 1995: 17 (4): 32-35.
    61 Murray, The Healing Power of Herbs, 75.
    62 C.N. Ellis, et al. “A double-blind evaluation of topical capsaicin in pruritic psoriasis.” Journal of the American Academy of Dermatology. 1993: 29 (3): 438-42.
    63 Murray, The Healing Power of Herbs, 75.
    64 S. Marabini, et al. “Beneficial effect of Intranasal applications of capsaicin in patients with vasomotor rhinitis.” Eur Arch-Otorhinolaryngol. 1991: 248 (4): 191-94.
    65 Ibid.
    66 Mowrey, 242.
    67B. Dib. “Effects of Intrathecal capsaicin on autonomic and behavioral heat loss responses in the rat. Pharmacol Biochem Behav. 1987: 28, 65-70.
    68 Murray, The Healing Power of Herbs, 72.
    69 Christopher, 31.
    70 M. Ponce, et al. “ In vitro effect against giardia of 14 plant extracts.” Rev-Invest-Clin. Sept- Oct. 1994: 46 (5): 343-47.
    71 Ibid.
    72 Humbart Santillo. Natural Healing with Herbs. (Hohm Press, Prescott, Arizona: 1993), 100.
    73 Daniel B. Mowrey. “Capsicum ginseng and gotu kola in combination.” The Herbalist premier issue, 1975: 22-28.
    74 Ibid.
    75 Mowrey, The Scientific Validation of Herbal Medicine, 102.
    76 J. Roquebert, et al. “Study of vasculotropic properties of Capsicum annuum.” Annales Pharmaceutiques Francaises. 1978: 36 (7-8): 361-68.
    77 Rita Elkins. Depression and Natural Medicine. (Woodland Publishing, Pleasant Grove, Utah: 1995), 161.



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    CLINICAL APPLICATIONS OF CAPSICUM
    TopPreviousNext

    Date: June 23, 2005 11:20 AM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: CLINICAL APPLICATIONS OF CAPSICUM

    CLINICAL APPLICATIONS OF CAPSICUM

    Capsicum is a remarkable whole body stimulant that can boost blood flow, tone the nervous system, relieve indigestion, promote sweating, help to cauterize and heal ulcers, ease persistent pain and fight off infection. One very authoritative work on African plants suggests that Capsicum’s “regular ingestion is highly beneficial in hemorrhoids, varicose veins, anorexia, liver congestion and vascular conditions . . .the indigenous inhabitants of Africa and of the Antilles are remarkably free form all of these conditions as they use Capsicum fruit in their diet.”10 Most of the therapeutic actions of Capsicum are attributed to the alkaloid or glucoside content of the herb.11 The latest scientific studies conducted with Capsicum will be discussed in subsequent sections.

    Herbal Catalyst

    Because Capsicum boosts peripheral circulation and stimulates organ secretion, it expedites the therapeutic delivery and action of other herbs. In other words, the medicinal benefits of these herbs reach infected or inflamed tissue more rapidly due to enhanced blood flow.12 Consider the following statement: “Cayenne will insure the rapid and even distribution of the active principles of the rest of the herbs to critical function - al centers of the body, including those involved in cellular respiration, metabolism, data transmission, and neural-hormonal activation. Cayenne is included in several other blends for this reason. In extremely small quantities it can dramatically increase the efficiency of most other herbs.”13 Many health practitioners believe that the key to healing is CAPSICUM stimulation. Capsicum stimulates eve rything from blood flow to peristaltic action in the stomach, to intestinal transit time. The re m a rkable ability of Capsicum to stimulate organ secretion and even heart action makes it one of the strongest natural stimulants known. Se veral different kinds of herbal blends targeting various body systems will utilize Capsicum to boost the formula’s efficacy.

    Cardiovascular Tonic

    Capsicum is said to be unequaled for its ability to boost circulation and increase heart action. Interestingly, cultures who consume significant amounts of cayenne pepper in their diet have much lower rates of cardiovascular disease.14 Capsicum exerts a variety of desirable actions on the entire card i ovascular system. It has the extraordinary ability to enhance cardiovascular performance while actually lowering blood pressure.15 A quote taken from a card i ovascular publication re a d s , “Capsaicin has also been shown to prolong cardiac action potential in atrial muscle . . .”16 Michael T. Murray, N.D., has stated, “ Cayenne pepper [Capsicum] should be recommended as a food for its beneficial antioxidant and cardiovascular effects.”17 Herbalists have considered Capsicum as a superior “f o o d” for the heart. In fact, in cases where a heart attack is suspected administering capsicum in hot water has been thought to help lessen the severity of the attack. Capsicum can also be placed on or under the tongue in emergencies involving heart attack, stroke or hemorrhaging. 18 Note: Using Capsicum for any heart-related problem, especially a suspected heart attack should never take the place of medical attention or a physician’s care.

    CAPSICUM Blood Cholesterol Reducer

    Various studies have conclusively demonstrated that Capsicum reduces the risk of developing atherosclerosis (hardening of the a rteries) by reducing blood cholesterol and triglyceride levels .19 Additional clinical studies conducted in India found that when cayenne was ingested along with dietary cholesterol, the typical rise in liver and blood serum cholesterol levels was significantly inhibited. In addition, bile acids and free cholesterol were subsequently eliminated from the body through the stool.20 Interestingly, these tests revealed that using Capsicum was actually more effective in reducing cholesterol that capsaicin alone.2 1 Daniel Mowrey, Ph.D., emphatically points out that this is just one of many examples of the superiority of whole botanicals as opposed to their isolated components.22 Note: Using Capsicum in combination with Hawthorn is a particularly good cardiovascular tonic.

    Blood Pressure Equalizer

    While an added bonus of Capsicum’s capability to lower blood serum cholesterol is a decrease in blood pressure, additional evidence strongly suggests that the herb initiates other mechanisms that fight hypertension .23 “Cayenne, according to another study, also reduces the blood pressure in an even more direct manner: a number of years ago, a team of researchers discove red that capsaicin acts in a reflexive manner to reduce systemic blood pressure, a kind of coronary chemoreflex.”24 Adding Garlic to Capsicum creates an even better therapeutic blend for treating hypertension.

    Blood Detoxification CAPSICUM

    “Cayenne is a kind of catalyst in the blood purification process . . . it acts as a diaphoretic, stimulating the excretion of wastes in the swe a t . ”25 Because Capsicum stimulates organ secretion and boosts peripheral blood flow, it would only stand to reason that it would also facilitate the faster removal of toxins from the bloodstream and lymphatic system. You may have already noticed that Capsicum is frequently added to blood-purifying herbal combinations. Circulatory Booster Researchers have found that the simulating action of Capsicum on surface capillaries can help to pre vent cold hands and feet.2 6 For this reason, it may be helpful for Reynaud’s Syndrome. Old remedies using Capsicum have even recommended placing it in socks to warm the feet and to help prevent frostbite. An old folk cure for a chilled body was a steaming hot cup of Capsicum tea. Free Radical Scavenger The rich flavonoid content of Capsicum gives it significant antioxidant capabilities. A recent study conducted in 1995 showed that Capsicum has a higher ascorbic acid content than chiles from the jalapeno or serrano varieties .27 Vitamin C and bioflavonoids can scavenge for dangerous free radicals which cause tissue damage and can predispose organs to degenerative diseases. Free radicals are found everywhere and are created as by-products of metabolic p rocesses including the act of breathing itself. Pollutants can expose the body to free radicals. An interesting study done in Mexico City and published in 1993 found that Capsicum extract was able to modulate the mutagenic activity of urban air samples.28 In other words, these potentially dangerous nitro - a romatic compounds found in polluted air were kept from mutating by red chile extract.29 Chemical breakdowns of Capsicum have also found that CAPSICUM the pepper is high in Provitamin A, which significantly contributes to its healing ability and immune fortification.30 Anti-Carcinogenic Compound Anti-cancer research recently tested Capsicum on laboratory rats and found that it does indeed demonstrate anti-cancer properties by inhibiting certain enzymes which can initiate the mutation of cells.31 What this implies is that taking Capsicum can afford the body some protection against the cellular mutation which occurs in malignant growths. Capsicum actually inhibited the formation of dangerous metabolites under laboratory conditions where they should have normally been activa t e d .3 2 This study implies that Capsicum may have many more sophisticated bio-chemical actions than previously thought.

    An Impressive Pain Killer

    Capsaicin has recently emerged as a remarkably effective pain reliever and has become the subject of recent clinical research . Applying capsaicin in cream or ointment form to painful joints, scar tissue or other painful conditions involving peripheral nerves confuses pain transmitters. In other worlds, capsaicin temporarily disrupts sensory nerve cell biochemistry there by impeding the relay of pain sensations from the skin surface. It does this by inhibiting a neurotransmitter called substance P. This specific compound is thought to be the main mediator of pain impulses from peripheral nerve endings.33 Substance P has also demonstrated its ability to inhibit inflammatory pain generated in arthritic joints in much the same way.34 Today, several over-the-counter topical preparations utilize capsaicin for the pain of arthritic joints. The ability of Capsicum to control severe and unresponsive pain is significant, to say the least. Modern clinical utilization of topical capsaicin may offer signifi-cant relief for a number of painful conditions including: diabetic neuropathy, cluster headaches, post-amputation pain, post-mastectomy pain, shingles and painful scar tissue.35

    POST-SURGICAL PAIN

    In the early spring of 1996, prime time national news show s reported that scientists had found that individuals who had suffered from chronic pain in post-surgical scars (heart bypass, arterial grafts, etc.) were successfully treated with topical preparations containing capsaicin. While this may have been news to many of us, clinical studies had been already published for several years that capsaicin held profound value for various kinds of pain which did not respond to established medical treatments. Typically surgical scars and regions around them can produce persistent pain or can be very sensitive to the touch even when completely healed. This type of pain phenomenon seems to respond well to capsaicin ointments and creams.

    POST-MASTECTOMY PAIN

    When capsaicin preparations were applied following mastectomy or breast reconstruction, pain was significantly relieved. Se veral double blind studies found that using capsaicin creams four times daily for 4 to 6 weeks resulted in much less frequent occurrence of sharp, jabbing pain.3 6 All thirteen patients studied had a 50 percent or greater improve m e n t .3 7 Various unpleasant sensations other than pain also improved with topical applications of capsaicin creams.38

    MOUTH SORES FROM RADIATION OR CHEMOTHERAPY

    A fascinating study conducted at the Yale Pain Management Center discove red that capsaicin could ve ry significantly lessen pain caused by mouth sores which frequently develop after chemotherapy or radiation.39 Apparently delivering the capsaicin in the form of soft candy (taffy) enabled the substance to be retained in the mouth long enough to desensitize the nerve endings causing the pain. Each one of the eleven case studies re p o rted that their pain had decreased and in two patients, it stopped entirely.40

    DIABETIC NEUROPATHY

    Diabetic neuropathy is a painful nerve condition which can develop in cases of prolonged diabetes. Several double-blind studies have supported the considerable value of capsaicin creams for relieving the pain associated with this disorder.41 The results of a controlled study using Capsicum for seve re cases of diabetic neuropathy which did not respond to conventional therapy were published in 1992. A cream containing Capsicum was applied to painful areas four time a day and pain was carefully e valuated for 8 weeks at two-week intervals. The results we re impressive, to say the least. In the 22 patients who used the Capsicum the following results we re re c o rded: “Capsaicin tre a tment was more beneficial than vehicle treatment in the overall clinical improvement of pain status, as measured by physician’s global evaluation and by a categorical pain severity scale . . . In a follow-up study, approximately 50 percent of the subjects reported improved pain control or were cured . . .”42 No t e : While there was a burning sensation when the Capsicum c ream was first applied, some subjects found that its magnitude and duration lessened with continued application.43

    SHINGLES

    The FDA has approved capsaicin-based ointments for the treatment of pain that results from diseases like shingles. Again, numerous studies have documented the value of capsaicin for decreasing the miserable nerve-related pain associated with shingles. The general consensus derived from these tests were that approximately 50 p e rcent of people suffering from shingles responded well to capsaicin creams, some even after 10 to 12 months.44

    Note: If blisters accompany a shingles outbreak, it is better to wait until they have healed before using any capsaicin-based ointments or creams.

    RELIEF FOR BURNING FEET

    Frequently an uncomfortable “burning” sensation in the feet will occur in many people, particularly in diabetics. As ironic as it may seem, using capsaicin creams may actually alleviate this burning. “In various studies, diabetics who treated their burning feet with capsaicin got greater improvement and we re able to walk more easily than those not using the cream.”45 In addition, using topical applications of capsaicin as opposed to strong, oral drugs is much more preferable.

    ARTHRITIS PAIN

    Clinical tests have confirmed that topical capsaicin ointments substantially alleviate the miserable pain that characterizes osteoand rheumatoid arthritis.46 These studies revealed that using 0.075 capsaicin cream reduced tenderness and pain.47 Dr. Michael T. Murray writes: “ . . . seventy patients with osteoarthritis and thirty - one with rheumatoid arthritis received capsaicin or placebo for 4 weeks. The patients were instructed to apply 0.025 percent capsaicin cream or its placebo to painful knees four times daily. Significantly more relief of pain was reported by the capsaicin-treated patients than by the placebo patients throughout the study . . .”48 Anyone suffering from osteo or rheumatoid arthritis should evaluate the effectiveness of capsaicin ointments for joint pain. Ester Lipstein-Kresch, M.D., has studied the effectiveness of capsaicin creams for arthritis and has stated: “You need to apply it three or four times a day on the affected area for at least two weeks before you’ll see any improvement. An initial burning sensation at the site is not unusual for the first few days, but this goes away with continued application.”49 Note: Capsaicin is also useful for tennis elbow due to its ability to block the transmission of pain.

    MIGRAINE HEADACHES (CLUSTER TYPE)

    Topical applications of capsaicin ointments Intranasally may also help to relieve the pain of a specific kind of migraine headache called cluster headaches. Cluster headaches are characterized by s e ve re pain which typically radiates around one eye. The term “cluster” refers to the fact that these headaches tend to occur in clusters of one to three per day and can recur at intervals. Headache pain and severity we re reducing in groups using Intranasal capsaicin.5 0 This type of capsaicin treatment should be done under a physician’s care. There is some speculation that capsaicin may be more effective in pre venting migraines before they develop into a full blown attack.51

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    Modified Citrus Pectin (MCP) and Mercury Cleansing Programs...
    TopPreviousNext

    Date: June 21, 2005 05:02 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: Modified Citrus Pectin (MCP) and Mercury Cleansing Programs...

    Modified Citrus Pectin (MCP) and Mercury Cleansing Programs

    by Isaac Eliaz, M.D., M.S., L.Ac.

    Modified Citrus Pectin (MCP) is a dietary supplement derived from the peel and pulp of citrus fruit. MCP is mostly known for its positive effects on cellular health. Recently, however, clinical research on MCP has produced exciting results for its use as a gentle chelator (eliminator) of mercury and other heavy metals. Some of the expanding clinical applications for MCP include:

  • * Detoxification; reduction of heavy metal body burden
  • * Supports normal cholesterol levels
  • * Immunomodulation enhancement

    The Problem with Mercury

    Recent news on mercury is particularly concerning for the U.S. population. In March 2004 the EPA issued a press release reporting nearly all fish contained traces of mercury. Some samples contained levels high enough to harm an unborn baby or young child's developing nervous system. These findings prompted the EPA to issue a warning to women who may become pregnant, pregnant women and nursing mothers advising them to eat only two meals of fish per week that are thought to have lower levels of mercury.1 In their most recent update (August 2004), the EPA issued a warning that 1/3 of the nation's lakes and 1/4 of its river ways are contaminated with toxic levels of mercury and other contaminants, and warned pregnant women and children against consumption of fish from these sources. Additionally, a National Academy of Sciences panel definitively warned that some children who had been exposed to mercury while in the wombs of their mothers were at risk for becoming those children "who have to struggle to keep up in school and who might require remedial classes of special education." The risk of mercury toxicity from fish has reached epidemic levels. Two studies have further spurred on the concerns of mercury toxicity, as they both found women to have mercury levels that are 8-10% above what is considered safe.1,2 Furthermore, women who ate more fish were found to have higher levels of mercury. Another source of mercury toxicity may be amalgam dental fillings. Heavy metals, in conjunction with the abundant presence of environmental toxins and xenoestrogens, constitute a dangerous insult to the body through DNA damage, hormonal modulation, immune suppression, oxidative stress, and cellular irritation.

    A New Application for MCP Use: Heavy Metal Detoxification

    The standard western medical approach for removing mercury from the body to treat mercury toxicity is chelation. This procedure is performed with harsh chelators that can cause multiple side effects while potentially robbing the body of some of its essential nutrients. While this may be the routine and most beneficial procedure when facing a serious toxicity problem, are there other, gentler ways to reduce mercury levels? Two recent clinical studies have found that MCP may be a promising new dietary solution for reducing heavy metal load. In one recent clinical study, MCP was administered to a group of volunteers, and baseline levels of their total body mercury burden were measured and then compared against levels after treatment with MCP (15 grams of PectaSol® daily) for four months. The results showed a significant average decrease (over 60%; p=0.03) in the total body mercury burden after treatment with MCP3 In an earlier study, PectaSol® was given to patients and proven to increase urinary secretion of heavy metals such as lead, mercury, cadmium and arsenic.4 Both studies concluded that MCP may be a promising alternative to the harsher Intravenous chelating therapies as MCP was found to be both effective and free of any side effects.

    How MCP Works as a Gentle Chelator

    Pectins are natural gelling agents, binders, thickeners, and stabilizers in foods. They mostly consist of galacturonic acid and galacturonic-acid methyl esters with average molecular weights from 50,000 to 150,000 daltons. High-methoxy (HM) pectin has at least 50% DE (degree of esterification) or greater, while a low-methoxy (LM) pectin?s DE is 50% or less. For systemic chelation of heavy metals, pectin is modified to a low molecular weight, and low-methoxy content. My observation from using MCP as a detoxification agent in my clinic is that it works as a gentle chelator in the bloodstream and it is very useful for ongoing use. Because fish are still recommended as part of a healthy diet and an essential source of certain nutrients (essential fatty acids like DHA), mercury levels are also becoming a widespread health concern. It is a Catch-22 for dietary health. As the widespread environmental cleanup of mercury is unlikely in the short-term, the medical community should develop methods to treat toxicity or reduce high body levels of mercury body burden. One approach is the use of traditional and alternative medicine cleansing programs along with the use of dietary supplements such as MCP that may act as gentle chelators. For chelation purposes, 5-15 grams of MCP should be taken per day depending on mercury levels for one year. Maintenance at 2-5 grams per day thereafter is usually sufficient. In my practice, I use 15 grams per day or 15 grams per day in the first 3-5 days of the month and 5 grams per day for the remainder of the month. MCP is generally regarded as safe and is well tolerated. Reported side effects have been rare, but may include mild and transient gastrointestinal discomfort.

    References:

    1-CDC Press Release: Blood and Hair Mercury Levels in Young Children and Women of Childbearing Age-United States, 1999 (see:/media/mmwrnews/n010302.htm#mmwr3) 2-Schober, SE, Sinks, TH, Jones, RL et al. (2003) Blood mercury levels in US children and women of childbearing age, 1999-2000. Journal of the American Medical Association. 289(13) :1667-74. 3-Eliaz, I. (2004) Modified citrus pectin (MCP) in the treatment of cancer. Paper presented at: The American Chemical Society Annual Meeting; Philadelphia, PA. 4-Eliaz, I. and D. Rode (2003). The effect of modified citrus pectin on the urinary excretion of toxic elements. Fifth Annual Conference of Environmental Health Scientists: Nutritional Toxicology and Metabolomics, University of California, Davis.

    --------------------------------------------------------------------------------

    Isaac Eliaz, M.D., M.S., L.Ac., is a pioneer in the field of integrative medicine and founder of Better Health Publishing®, an education-based company that provides health care professionals, consumers and other interested parties with scientific research on integrative medicine. He is a respected author, clinical practitioner and frequent guest lecturer on integrative medical approaches to health, immune enhancement and cancer prevention and treatment. Since 1991, Dr. Eliaz has maintained a busy private practice in Sebastopol, California, and is the current medical director of the Amitabha Medical Clinic and Healing Center (email:information@amitabhaclinic.com) which focuses primarily on integrative and holistic protocols for cancer patients as well as those with chronic health challenges.



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    Breathe Easy
    TopPreviousNext

    Date: June 14, 2005 06:19 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: Breathe Easy

    Breathe Easy

    by Edward Bullard, III Energy Times, March 1, 1998

    Don't underestimate the danger of asthma. When an asthmatic attack chokes the passageways to your lungs, cutting off your air supply, the consequences can prove frightening and disastrous.

    Although asthma is the leading chronic illness among children, most sufferers are adults. The condition ranks as the 7th most common chronic affliction nationwide affecting 14 to 20 million people; about 11 million of these are over the age of 18.

    The American Lung Association estimates that between 1982 and 1992 the total number of asthma cases jumped by more than 57%. Researchers can't pinpoint the reasons for this rise, but they have found that urban dwellers suffer a higher asthma risk.

    Despite the gloomy statistics, those who suffer asthma can take reassurance from the progressive development of complementary and conventional treatments that control this condition. Anyone who suffers asthma should consult with a knowledgeable health practitioner.

    How does asthma start? This airway problem may originate with allergies and sinus or bronchial infections (the bronchi are the tubes leading to the lungs). Some experts believe that air pollution, dust mites, cockroach remains and other environmental toxins may exacerbate the condition.

    A family history of allergies and asthma also increases your asthmatic vulnerability since your genes may make you more prone to the airway inflammation that leads to breathing constraints.

    Allergic reactions to food have been implicated in causing restricted breathing. Food found to most frequently instigate immediate lung difficulties include nuts, peanuts (which are, technically, legumes not nuts), eggs, shellfish and fish. Foods that do not cause immediate wheezing but may produce a delayed respiratory effect include artificial food colorings, wheat, citrus fruits, milk, chocolate and wheat products.

    Since an allergic reaction to particular foods can apparently play a role in asthma, some people find relief by systematically eliminating foods from their diets, identifying troublesome items and then permanently avoiding those foods.

    Asthma's Nutrition Gap

    According to Richard N. Firshein, D.O., director of the Firshein Center for Comprehensive Medicine in New York City, asthma stems from cells' "disordered metabolism." In these circumstances, the body's immune system often mistakes allergens (normally benign substances) for infectious agents. In strenuously defending itself against allergens, the body goes on "red alert," says Dr. Firshein in his book Reversing Asthma (Warner), "exhausting itself in the process." This creates a need for extra vitamins, minerals and other nutrients. Too often, he believes, this nutritional need is not met and asthma ensues.

    In the presence of asthma, magnesium can help restore free breathing. Dr. Firshein reports that about 50 years ago, medical researchers discovered that treating asthma victims with magnesium sulfate opened up breathing passageways. Although magnesium by itself does not completely alleviate asthma attacks, many emergency room doctors still use it in conjunction with other treatments to restore breathing.

    In explaining magnesium's usefulness in alleviating asthma, Dr. Firshein notes that magnesium competes with calcium in each cell to influence asthmatic reactions. For instance, calcium stimulates mast cells (reactive immune cells) to release histamine, a chemical that foments allergic reactions that hinder breathing. Conversely, magnesium "stabilizes" mast cells, quieting their activity so that they retain their histamine instead of flooding breathing passages.

    In addition, calcium takes part in muscle contractions that can constrict breathing tube muscles. Magnesium can help relax those same muscles.

    Although Intravenous treatment with magnesium for acute asthma attacks must be carried out by a trained health professional, taking magnesium supplements over a period of time, may gradually help assuage asthma's wheezes.

    How do you tell if you're short of magnesium? Standard blood tests of magnesium levels may be inadequate. As Dr. Firshein points out, normal blood tests only examine the amount of magnesium floating in the blood's plasma. That level can apparently appear sufficient even if red blood cells are magnesium-deficient. (Dr. Firshein recommends asking your health practitioner for a special red blood cell test.)

    Ephedra for Asthma

    Ever since about 3,000 BC, Chinese health practitioners have been giving the herb ma huang (Ephedra sinica) to asthma sufferers. In the 1920s, western medical researchers extracted a chemical called ephedrine from ma huang and soon synthesized this substance for use as a pharmaceutical. However, herbal experts believe that there are other beneficial substances in ma huang besides ephedrine that can ease breathing.

    Although ephedra has been used successfully to ward off the allergies of hayfever as well as mild asthma, when this herb is taken over a long period its benefits may lessen. The reason: eventually the herb's ephedrine weakens the adrenal glands, according to Michael Murray, ND, and Joseph Pizzorno, ND, in the Encyclopedia of Natural Medicine (Prima). To offset this effect, they recommend supporting the use of ephedra with licorice (Glycerrhiza glabra) as well as ginseng (Panax ginseng) which support the adrenals. In addition, vitamins C and B6 and zinc and magnesium plus pantothenic acid also boost adrenal function.

    Licking Asthma with Licorice

    Since much of asthma's deleterious effects on health stem from the fact it inflames breathing passageways, licorice root, which acts to squelch inflammation and which calms allergies, can be helpful in restoring normal breathing. Licorice, according to Drs. Murray and Pizzorno, promulgates the persistence of cortisol in our body, a hormone that acts as an anti-inflammatory agent.

    As an extra benefit, licorice can also forestall the side effects of cortisone, one of the most widely prescribed medicines for asthma. Licorice also boosts cortisone's desirable anti-inflammatory action while inhibiting the action of enzymes that would otherwise increase unwanted inflammation.

    Onions + Garlic = Better Breath

    Despite their reputation for giving you bad breath, both onion and garlic can improve the breath of those afflicted with asthma. The reason: both of these plants restrict the action of an enzyme with the tongue twisting name of lipoxygenase, a chemical that helps produce inflammation.

    Studies with animals showed that when they were fed onion extract, their induced asthmatic problems decreased. Part of onion's benefit may be due to its quercetin content. (Quercetin is a bioflavonoid available as a supplement.) Onion also contains mustard oils, which are believed to slow the body's production of leukotrienes (substances that also increase inflammation).

    Vitamin C

    Vitamin C, the most abundant antioxidant nutrient in the lungs' inner lining, apparently protects against respiratory problems. Studies of people with asthma show that they possess less vitamin C both in their circulating blood and in white blood cells. When researchers induced bronchial constriction in people who volunteered for respiratory studies, they found that those given vitamin C didn't have as hard a time breathing. Experts recommend healthy doses of vitamin C plus other antioxidant nutrients such as vitamin E, carotenoids and selenium to lower the risk of allergic reactions and ease breathing. Antioxidant nutrients restrict the action of free radicals, molecules that attack the lungs and other parts of the cardiovascular system.

    Chinese skullcap (Scutellaria baicalensis) also effectively fights inflammation without causing serious side effects. Experts believe its bioflavonoids stop the body from making biochemicals that inflame tissues. Aside from restricting inflammation, these bioflavonoids also act as antioxidants.

    Strength in Numbers

    Asthma support organizations can provide vital information: Organizations American Lung Association 1740 Broadway, New York, NY 10019-43741 (800) LUNG-USA llergy & Asthma Network/Mothers of Asthmatics Inc., 3554 Chain Bridge Road, Suite 200, Fairfax, VA 22030 (703) 385-4403, (800) 878-4403 th/aanma Asthma and Allergy Foundation of America,1125 15th Street, N.W., Suite 502 Washington, DC 20005 (800) 727-8462

    --
    Vitanet ®

    (https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=361)


    Green Power
    TopPreviousNext

    Date: June 14, 2005 06:11 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: Green Power

    Green Power

    by Charles Scott Energy Times, January 4, 2005

    If you want to stave off infections, aging-even liver cancer-get your fill of chlorophyll, a vital nutrient in plants.

    The green in plants possesses unique powers. Green landscapes soothe the soul. A verdant expanse of green vegetation offers comfort, peace and ecological consolation. What makes some plants, including vegetables, green: Chlorophyll, a substance that is also a crucial nutrient for better health.

    Chlorophyll is a special chemical that consists of molecules which enable plants to collect sunlight. In a complex molecular process, vegetation then uses chlorophyll to harness the power from the sun's rays and build carbohydrates from carbon dioxide and water. Those carbohydrates form the basic nutritional building blocks that we and other animals need to survive and thrive.

    Besides enabling the creation of carbohydrates, research shows that chlorophyll itself can help lower our risk of diseases like cancer. A recent study in China demonstrates that daily supplements of a chemical derived from chlorophyll can protect DNA, the genetic material in cells. When DNA is damaged and malfunctions, cells may reproduce wildly and become cancerous tumors. The latest experiments, performed by scientists affiliated with the Johns Hopkins Bloomberg School of Public Health and Oregon State University (OSU), show that chlorophyll and its chemical relatives may insulate DNA from unhealthy changes linked to aflatoxin, a fungus that often contaminates corn, peanuts and soybeans. In China, liver cancer associated with aflatoxin is a widespread problem.

    " In the area of China in which we did our study about one in 10 adults die from liver cancer, and it's the third leading cause of cancer deaths worldwide," says George Bailey, PhD, a professor of environmental and molecular toxicology at OSU. "The findings of this research could be enormously important to many areas of China, Southeast Asia and Africa, where aflatoxin-related liver cancer is a real concern. Many of these deaths might be preventable with supplements that cost pennies a day."

    This research looked at about 180 people in Qidong, China. When people in the study were given supplements containing chlorophyll derivatives, they had less than half the DNA damage of people who didn't take supplements.

    According to the scientists, chlorophyll and similar substances may act as interceptor molecules, blocking the absorption of carcinogens. As John Groopman, professor at the Johns Hopkins School of Public Health, observes, the supplements these people took "...can effectively reduce aflatoxin levels, which should reduce the risk of liver cancer."

    Closer to home, other researchers point out that chlorophyll-rich vegetarian foods may help protect us from carcinogens in the typical American diet.

    If you've ever enjoyed a hunk of grilled meat, you've consumed substances scientists call heterocyclic amines, which are contained in the charred part of meat cooked on a grill. Studies have shown that these tasty tidbits can increase your risk of breast and other types of cancer. (Your risk from charred meat greatly increases if you are also a smoker.) However, if you eat a food like spirulina, a blue-green algae high in antioxidants that also contains plenty of chlorophyll, its protective substances can bind with these carcinogens within your digestive tract and keep them from being absorbed.

    Green Keeps You Younger

    While we always hear that eating more fruits and vegetables enhances our health, new research shows that eating green foods adds extra power to an anti-aging program.

    Two experiments at the University of South Florida Center for Aging and Brain Repair, published in the Journal of Neurobiology (7/15/02), show that spirulina and other greens can help shield the brain from the antioxidant damage that accumulates as one ages and may help reverse declines in learning and memory.

    The first study found that a diet rich in spinach helped lab animals stay smart as they grew older. Spinach's benefits, according to the researchers, are due to its rich antioxidant content, which can counteract free radicals (caustic molecules) created in the body during normal metabolism and increased by exposure to environmental pollutants, sunlight and radiation. When free radicals attack, cell walls and other cellular structures are compromised and DNA can malfunction. A lifetime of free-radical damage can slow your thinking and may be one of the causes of Alzheimer's and Parkinson's diseases, says Dr. Paula Bickford, lead author on the project.

    The second study found that the protective effect of green plants may be linked to their ability to reverse age-related accumulations of potentially harmful inflammatory substances in the brain. In this research, spirulina improved neuron function, lowered inflammation in the brain and reduced levels of chemicals linked to oxidative damage. In fact, spirulina didn't just slow the deterioration of neurotransmitter interactions caused by aging, it actually improved their function.

    " Not all foods are created equal," says Dr. Bickford. "Cucumbers taste good and have lots of fiber. But unlike spirulina and apples, they are not rich in phytochemicals that have antioxidant or anti-inflammatory effects in the brain."

    Green Immunity

    Aside from assisting brain function, spirulina also seems able to help pump up the immune system. Researchers at the University of California at Davis found that adding spirulina to cultured immune system cells significantly increases the production of infection-fighting cells called cytokines.

    A number of previous laboratory studies have found that spirulina can balance immune response: While easing allergic reactions, this powerful green food also was found to enhance the ability of immune cells called macrophages to both destroy bacteria and eliminate cancerous cells.

    " We found that nutrient-rich spirulina is a potent inducer of interferon-g (13.6-fold increase) and a moderate stimulator of both interleukin-4 and interleukin-1b (3.3-fold increase)," notes Eric Gershwin, professor at UC Davis. "Together, increases in these cytokines suggest that spirulina is a strong proponent for protecting against Intracellular pathogens and parasites, and can potentially increase the expression of agents that stimulate inflammation, which also helps to protect the body against infectious and potentially harmful micro-organisms."

    What this means for you: Spirulina holds the potential to help the body protect itself against battalions of infectious invaders. " People have used foods like yogurt and spirulina throughout history," says Judy van de Water, PhD, associate professor at UC Davis. "Through research, we are learning exactly how these foods improve immune system function and how they are a beneficial addition to our diet."

    Throughout the history of life on earth, the healthy development of animal and human life has depended on green plants. Today, as our environment deteriorates and our bodies are under attack from an increasingly polluted world, we need those health-boosting greens more than ever.



    --
    Vitanet ®

    (https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=358)


    Breathe Easy - Don't underestimate the danger of asthma.
    TopPreviousNext

    Date: June 12, 2005 05:57 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: Breathe Easy - Don't underestimate the danger of asthma.

    Breathe Easy by Edward Bullard, III Energy Times, March 1, 1998

    Don't underestimate the danger of asthma. When an asthmatic attack chokes the passageways to your lungs, cutting off your air supply, the consequences can prove frightening and disastrous.

    Although asthma is the leading chronic illness among children, most sufferers are adults. The condition ranks as the 7th most common chronic affliction nationwide affecting 14 to 20 million people; about 11 million of these are over the age of 18.

    The American Lung Association estimates that between 1982 and 1992 the total number of asthma cases jumped by more than 57%. Researchers can't pinpoint the reasons for this rise, but they have found that urban dwellers suffer a higher asthma risk.

    Despite the gloomy statistics, those who suffer asthma can take reassurance from the progressive development of complementary and conventional treatments that control this condition. Anyone who suffers asthma should consult with a knowledgeable health practitioner.

    How does asthma start? This airway problem may originate with allergies and sinus or bronchial infections (the bronchi are the tubes leading to the lungs). Some experts believe that air pollution, dust mites, cockroach remains and other environmental toxins may exacerbate the condition.

    A family history of allergies and asthma also increases your asthmatic vulnerability since your genes may make you more prone to the airway inflammation that leads to breathing constraints.

    Allergic reactions to food have been implicated in causing restricted breathing. Food found to most frequently instigate immediate lung difficulties include nuts, peanuts (which are, technically, legumes not nuts), eggs, shellfish and fish. Foods that do not cause immediate wheezing but may produce a delayed respiratory effect include artificial food colorings, wheat, citrus fruits, milk, chocolate and wheat products.

    Since an allergic reaction to particular foods can apparently play a role in asthma, some people find relief by systematically eliminating foods from their diets, identifying troublesome items and then permanently avoiding those foods.

    Asthma's Nutrition Gap

    According to Richard N. Firshein, D.O., director of the Firshein Center for Comprehensive Medicine in New York City, asthma stems from cells' "disordered metabolism." In these circumstances, the body's immune system often mistakes allergens (normally benign substances) for infectious agents. In strenuously defending itself against allergens, the body goes on "red alert," says Dr. Firshein in his book Reversing Asthma (Warner), "exhausting itself in the process." This creates a need for extra vitamins, minerals and other nutrients. Too often, he believes, this nutritional need is not met and asthma ensues.

    In the presence of asthma, magnesium can help restore free breathing. Dr. Firshein reports that about 50 years ago, medical researchers discovered that treating asthma victims with magnesium sulfate opened up breathing passageways. Although magnesium by itself does not completely alleviate asthma attacks, many emergency room doctors still use it in conjunction with other treatments to restore breathing.

    In explaining magnesium's usefulness in alleviating asthma, Dr. Firshein notes that magnesium competes with calcium in each cell to influence asthmatic reactions. For instance, calcium stimulates mast cells (reactive immune cells) to release histamine, a chemical that foments allergic reactions that hinder breathing. Conversely, magnesium "stabilizes" mast cells, quieting their activity so that they retain their histamine instead of flooding breathing passages.

    In addition, calcium takes part in muscle contractions that can constrict breathing tube muscles. Magnesium can help relax those same muscles.

    Although Intravenous treatment with magnesium for acute asthma attacks must be carried out by a trained health professional, taking magnesium supplements over a period of time, may gradually help assuage asthma's wheezes.

    How do you tell if you're short of magnesium? Standard blood tests of magnesium levels may be inadequate. As Dr. Firshein points out, normal blood tests only examine the amount of magnesium floating in the blood's plasma. That level can apparently appear sufficient even if red blood cells are magnesium-deficient. (Dr. Firshein recommends asking your health practitioner for a special red blood cell test.)

    Ephedra for Asthma

    Ever since about 3,000 BC, Chinese health practitioners have been giving the herb ma huang (Ephedra sinica) to asthma sufferers. In the 1920s, western medical researchers extracted a chemical called ephedrine from ma huang and soon synthesized this substance for use as a pharmaceutical. However, herbal experts believe that there are other beneficial substances in ma huang besides ephedrine that can ease breathing.

    Although ephedra has been used successfully to ward off the allergies of hayfever as well as mild asthma, when this herb is taken over a long period its benefits may lessen. The reason: eventually the herb's ephedrine weakens the adrenal glands, according to Michael Murray, ND, and Joseph Pizzorno, ND, in the Encyclopedia of Natural Medicine (Prima). To offset this effect, they recommend supporting the use of ephedra with licorice (Glycerrhiza glabra) as well as ginseng (Panax ginseng) which support the adrenals. In addition, vitamins C and B6 and zinc and magnesium plus pantothenic acid also boost adrenal function.

    Licking Asthma with Licorice

    Since much of asthma's deleterious effects on health stem from the fact it inflames breathing passageways, licorice root, which acts to squelch inflammation and which calms allergies, can be helpful in restoring normal breathing. Licorice, according to Drs. Murray and Pizzorno, promulgates the persistence of cortisol in our body, a hormone that acts as an anti-inflammatory agent.

    As an extra benefit, licorice can also forestall the side effects of cortisone, one of the most widely prescribed medicines for asthma. Licorice also boosts cortisone's desirable anti-inflammatory action while inhibiting the action of enzymes that would otherwise increase unwanted inflammation.

    Onions + Garlic = Better Breath

    Despite their reputation for giving you bad breath, both onion and garlic can improve the breath of those afflicted with asthma. The reason: both of these plants restrict the action of an enzyme with the tongue twisting name of lipoxygenase, a chemical that helps produce inflammation.

    Studies with animals showed that when they were fed onion extract, their induced asthmatic problems decreased. Part of onion's benefit may be due to its quercetin content. (Quercetin is a bioflavonoid available as a supplement.) Onion also contains mustard oils, which are believed to slow the body's production of leukotrienes (substances that also increase inflammation).

    Vitamin C

    Vitamin C, the most abundant antioxidant nutrient in the lungs' inner lining, apparently protects against respiratory problems. Studies of people with asthma show that they possess less vitamin C both in their circulating blood and in white blood cells. When researchers induced bronchial constriction in people who volunteered for respiratory studies, they found that those given vitamin C didn't have as hard a time breathing. Experts recommend healthy doses of vitamin C plus other antioxidant nutrients such as vitamin E, carotenoids and selenium to lower the risk of allergic reactions and ease breathing. Antioxidant nutrients restrict the action of free radicals, molecules that attack the lungs and other parts of the cardiovascular system.

    Chinese skullcap (Scutellaria baicalensis) also effectively fights inflammation without causing serious side effects. Experts believe its bioflavonoids stop the body from making biochemicals that inflame tissues. Aside from restricting inflammation, these bioflavonoids also act as antioxidants.



    --
    Vitanet ®

    Solaray - Ultimate Nutrition - Actipet Pet supplements - Action Labs - Sunny Greens - Thompson nutritional - Natural Sport - Veg Life Vegan Line - Premier One - NaturalMax - Kal

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    Energy Vitamins
    TopPreviousNext

    Date: June 11, 2005 05:50 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: Energy Vitamins

    Energy Vitamins by Daniel Mowrey, PhD Energy Times, June 7, 1998

    Do you suffer groggy mornings clouded with tired and achy feelings? Do you have to struggle to muster sufficient energy to cope with the day? Then, throughout the morning and afternoon, does frequent fatigue, weakness or depression persist on your horizon like an ugly storm cloud? And your evening may bring little relief as you slump into bed for a restless night, only to begin the same routine the next morning. If lack of vim and vigor plagues your days and nights, your body may be suffering from an inability to synthesize sufficient energy.

    Our lives depend on processing the food we eat into substances our cells can take in and use. In a never-ending cycle, our body breaks food down and reconstructs the components to form body structures and burn as energy.

    How much you exercise, the food and supplements you eat and how much you sleep influence the efficiency of these processes.

    Vitamins and Energy

    Certain nutrients are called vitamins because they are crucial for vitality. These nutrients are essential to a productive life, the starting point for all life-giving and life-sustaining processes. Because of vitamins' crucial role in energy production, many people can perk up their stamina simply by consuming an adequate supply of vitamins in their daily diet. Since many vitamins - especially the ones concerned with energy - must be constantly replenished, a decent diet and the right supplements must be consumed every day.

    Be Energetic with B Vitamins

    Vitamins, especially the B vitamins, play extremely important roles in producing cellular energy. Their most important roles are shown in the illustration on page 48. The chart on page 46 lists the key vitamins and describes their effects as well as the consequences of not getting enough of them. Their effect is felt most profoundly in the energy producing process known as the Krebs cycle (which we'll explain in a moment).

    Vitamins B2 and B3, for example, supply the major building blocks for substances called flavin adenine dinucleotide (FAD and FADH) and nicotinamide adenine dinucleotide (NAD and NADH) which are critical elements of producing energy in the Krebs cycle as well as a process called oxidative phosphorylation.

    Even though you may never have heard of NAD and NADH, these molecules are found in many places in your body; they play a role in hundreds of biochemical reactions in all kinds of cells. B vitamins also combine with other materials to build coenzymes, chemicals which help form other chemicals necessary for cellular energy. B vitamins are crucial: miss out on one or more and you may break these metabolic chains necessary for peak energy.

    Energy to Spend

    The main energy currency of every cell is ATP: adenosine triphosphate. This material is used by cells for every imaginable task including reproduction, growth, movement and metabolism. Specialized metabolic cycles within the cell are designed to generate ATP.

    Consequently, the more ATP our cells create, the more energy can be generated. The raw materials used to make cellular energy are glucose (blood sugar) and "free" fatty acids. The best way to supply your cells with the sugar they need is to consume complex carbohydrates which also supply fiber and other nutrients. When you eat carbohydrates, they are made into glucose which is stored as a starch called glycogen in muscles and the liver. Your body can rapidly turn glycogen into glucose for extra energy (The process of making energy from glycogen yields carbon dioxide and water as well as ATP.)

    Making Energy

    The first step in making glucose into energy is called glycolysis. This complicated process requires nine different steps. During these steps, glucose is made into a substance called pyruvate. The process of glycolysis requires ATP, but yields twice as much ATP as is present when it starts.

    From here, the process gets a little more complicated as pyruvate enters into a complex chain of events in tiny cellular structures called mitochondria. (Many metabolic events take place in the mitochondria.) The pyruvate molecules are converted to a molecule known as acetyl coenzyme A and eventually made into carbon dioxide, water and more ATP. This process is known as the Krebs cycle or citric acid cycle. It also involves a series of events known as oxidative phosphorylation in which NADH formed during the Krebs cycle is oxidized to form ATP.

    Why is fat such a concentrated source of energy? Free fatty acids enter the Krebs cycle to help generate ATP much more efficiently than glucose - producing roughly six times more energy per gram than glucose.

    Get Your Vitamins Every Day

    While we rely on our diet to supply many of our vitamins, a B complex supplement and multi-vitamins can ensure you consume sufficient amounts of these crucial nutrients.

    Many experts agree that a diet rich in raw fruits, nuts and vegetables that minimizes saturated fat can supply adequate a-mounts of these nutrients. Other supplements that may aid energy production:

    Alpha Lipoic Acid, an antioxidant that works in the fatty tissues of cell membranes and in cells' watery interiors. CoQ10, a nutrient that protects cell membranes, especially of the heart, against oxidation and toxins. Plus, herbs such as suma, ginseng and licorice root as well as creatine, carnitine and pyruvate.

    Of course if you suffer from any long term, Intractable fatigue, consult your health practitioner. But for most cases of decreased vim and vigor, adequate vitamins should help your body recover your get up and go.



    --
    Vitanet ®

    Solaray - Ultimate Nutrition - Actipet Pet supplements - Action Labs - Sunny Greens - Thompson nutritional - Natural Sport - Veg Life Vegan Line - Premier One - NaturalMax - Kal

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