Search Term: " Miochondria "

	Improve Memory, Learning, Focus, And Muscle Function With Acetyl L-Carnitine	Darrell Miller	11/9/22
	All You Need to Know About L-Carnitine	Darrell Miller	10/28/22
	The Many Health Benefits of Copper Glycinate	Darrell Miller	10/25/22
	The Benefits of NOW Clinical Cardio	Darrell Miller	9/30/22
	What Cellular Mitochondria Does in the Body	Darrell Miller	4/28/22
	Powerful antioxidant helps us burn fat, lose weight and avoid premature aging	Darrell Miller	4/27/19
	Coenzyme Q10: Research confirms ubiquinone and ubiquinol are nearlyequally-absorbed ...	Darrell Miller	4/22/19
	Medical News Today: Alpha-lipoic acid: Everything you need to know	Darrell Miller	4/17/19
	Stop feeding cancer cells! This is the diet mistake you probablymake that can cause cancer	VitaNet, LLC Staff	9/5/18
	Why your brain fails as you age, what you can do now	VitaNet, LLC Staff	8/24/18
	Scientists Say: Mitochondrion	Darrell Miller	5/27/17
	One of the Best Brain Boosters, yet Hardly Anyone Does It	Darrell Miller	5/13/17
	More ailments could be added to cannabis oil treatment list	Darrell Miller	4/27/17
	Study Says Inflammation Is Keeping You Fat	Darrell Miller	2/18/17
	The Conversation US: 13 ways to keep free radicals away, and why it's so important	Darrell Miller	1/8/17
	CoQ10 — A Nutritional Powerhouse for Mitochondrial Health	Darrell Miller	12/27/16
	How Glutathione Reduces Effects Of Parkinson's Disease	Darrell Miller	12/10/16
	Gut bacteria unleash anti-aging power of pomegranates	Darrell Miller	11/21/16
	Top 10 amazing, indigenous, all-natural cures from around the world	Darrell Miller	11/5/16
	Mother Nature’s Best Secret is Grape Seed Extract	Darrell Miller	12/25/14
	Is Cocoa Butter Good For The Skin? Why?	Darrell Miller	3/6/14
	Boost Energy With CoQ10 And L-Carnitine	Darrell Miller	11/21/13
	Astaxanthin Protects The Eye And More!	Darrell Miller	11/13/13
	What Are The Health Benefits Of Quercetin?	Darrell Miller	4/18/13
	CoQ10: What You Ought to Know about This Substance?	Darrell Miller	3/26/13
	Can Resveratrol Help Fight DNA Damage?	Darrell Miller	1/21/13
	Coq10 and its benefits	Darrell Miller	10/26/12
	Can Ginseng Boost Your Energy Safely?	Darrell Miller	10/5/11
	How Does Coenzyme Q10 Improve Energy Levels and Our Health?	Darrell Miller	10/4/11
	How Does Malic Acid Help With Fibromyalgia?	Darrell Miller	8/22/11
	How Does Taurine Help the Brain?	Darrell Miller	5/13/11
	How does Malic Acid help with Fibromyalgia?	Darrell Miller	2/9/11
	The Krebs Cycle - Our Lifes Blood!	Darrell Miller	1/13/11
	Glutathion, Antioxidants, And The Body	Darrell Miller	7/14/10
	Take Control Of your Inflammation With Supplements	Darrell Miller	5/27/10
	Antioxidants and your health	Darrell Miller	5/17/10
	L-Carnitine	Darrell Miller	5/7/09
	Detoxify With L-Citrulline	Darrell Miller	4/13/09
	L-Arginine An Amino Acid Essential Or Not You Be The Judge?	Darrell Miller	1/6/09
	L-Alanine Non Essential Amino Acid	Darrell Miller	1/5/09
	Inosine	Darrell Miller	12/19/08
	Hoodia Gordonii	Darrell Miller	12/10/08
	Green Coffee Bean Extract	Darrell Miller	10/22/08
	Glycine	Darrell Miller	10/11/08
	Control Blood Sugar Naturally	Darrell Miller	10/1/08
	Gamma Oryzanol	Darrell Miller	8/29/08
	Garcinia Cambogia	Darrell Miller	8/28/08
	Coconut Oil	Darrell Miller	8/18/08
	Vitamin C	Darrell Miller	8/12/08
	What is Alpha Lipoic Acid?	Darrell Miller	7/18/08
	Antioxidants For The Body	Darrell Miller	6/10/08
	D-Ribose	Darrell Miller	5/17/08
	Copper	Darrell Miller	5/15/08
	Lipid content by percentage	Darrell Miller	5/13/08
	B Vitamin Supplements	Darrell Miller	5/7/08
	Cherry Fruit Extract	Darrell Miller	4/28/08
	GTF Chromium	Darrell Miller	4/23/08
	Health And Applications Of Coenzyme Q10	Darrell Miller	4/17/08
	L-Carnitine For Health And Wellness	Darrell Miller	4/16/08
	Biotin For Better Health!	Darrell Miller	4/14/08
	Blue Green Algae a Super Food that is Foods Packed With Nutrients. Vegetarian Friendly	Darrell Miller	4/11/08
	Ubiquinol Reduced CoQ10	Darrell Miller	4/7/08
	Alpha Lipoic Acid is a Powerful Antioxidant	Darrell Miller	2/15/08
	The Benefits of Ascorbyl Palmitate A Fat-Soluble Form of Ascorbic Acid	Darrell Miller	2/9/08
	Astaxanthin, a Member of the Carotenoid Family, is a Powerful Antioxidant	Darrell Miller	1/31/08
	Eighty Seven Percent of All Type 2 Diabetes Can Be Prevented Naturally	Darrell Miller	1/24/08
	Seniors Need More Than a Multiple with Only 100 Percent of the RDA	Darrell Miller	1/21/08
	Give Your Health A Boost With Silica Hydride A Powerful Antioxidant	Darrell Miller	1/18/08
	Bioflavonoids: Boost Your Brain and Circulatory Health	Darrell Miller	1/17/08
	Power Your Day With Natural Energizer's	Darrell Miller	12/20/07
	A Periwinkle Extract Vinpocetine May Promote Cerebral Blood Flow	Darrell Miller	12/1/07
	Kaneka QH - Ubiquinol	Darrell Miller	11/30/07
	Ubiquinol	Darrell Miller	10/24/07
	Active Coenzyme Q10	Darrell Miller	7/7/07
	The Awesome Foursome: Coenzyme Q10, D-Ribose, L-Carnitine, and Magnesium	Darrell Miller	5/18/07
	Scientific Method of Evaluating the Effectiveness of Natural Medicines	Darrell Miller	4/21/07
	CoQ10 for Heart Health	Darrell Miller	3/28/07
	Supplements good for reducing stress and boosting energy!	Darrell Miller	3/26/07
	Neurological Health and CoQ10	Darrell Miller	2/25/07
	For Better Heart Health ...	Darrell Miller	2/6/07

Date: November 09, 2022 10:37 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Improve Memory, Learning, Focus, And Muscle Function With Acetyl L-Carnitine

Acetyl L-carnitine is an amino acid that assists in the conversion of choline into acetylcholine. Acetylcholine is a neurotransmitter that is necessary for memory, learning, concentration, and muscle movement.* Many people take acetyl L-carnitine supplements to improve cognitive function and support healthy brain aging. Here's a closer look at the role of acetyl L-carnitine in the body and how it might benefit your health.

How Acetyl L-Carnitine Works

Acetyl L-carnitine is involved in the production of energy in cells. It helps shuttle fatty acids into the mitochondria, where they're burned for fuel. Acetyl L-carnitine also acts as an antioxidant and helps protect cells from damage.

In the brain, acetyl L-carnitine plays a role in the production of acetylcholine. Acetylcholine is a neurotransmitter that's required for learning, memory, focus, and muscle movement.* A decline in acetylcholine levels has been linked with age-related cognitive decline and dementia. Supplementing with acetyl L-carnitine might help increase acetylcholine levels and slow age-related cognitive decline.

Acetyl L-carnitine might also help protect nerve cells from damage. This amino acid has been shown to reduce symptoms of nerve pain and improve nerve function in people with diabetic neuropathy and other types of nerve damage.*

Health Benefits of Acetyl L-Carnitine

Acetyl L-carnitine supplements have been shown to offer several health benefits, including:

• Improving cognitive function in older adults
• Reducing symptoms of depression
• Improving symptoms of diabetic neuropathy
• Improving exercise performance

If you're looking for a supplement to support healthy brain aging or improving cognitive function, acetyl L-carnitine might be worth considering. This amino acid offers several potential health benefits, including reducing symptoms of depression and improving exercise performance. Give it a try today!

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6563)

Date: October 28, 2022 01:59 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: All You Need to Know About L-Carnitine

L-carnitine is a non-essential amino acid that has a variety of health benefits.* It is found naturally in red meat and other animal products, but the best way to ensure you're getting enough is through supplementation. NOW Foods offers a highly absorbable liquid form of L-carnitine that is vegetarian (non-animal sourced) and clinically tested for purity. Let's take a closer look at the benefits of L-carnitine and why you should consider adding it to your supplement regimen.

What are the benefits of L-carnitine?

As we age, our bodies become less efficient at producing carnitine, which can lead to fatigue, muscle weakness, heart problems, and brain fog.* Supplementing with L-carnitine has been shown to improve these symptoms by facilitating the transfer of fatty acids into the mitochondria for energy production.* In addition, L-carnitine has also been shown to boost cognitive performance, increase exercise recovery times, and protect against age-related cognitive decline.*

Why choose NOW Foods L-Carnitine Liquid?

NOW Foods L-Carnitine Liquid is a pure, vegetarian (non-animal sourced), clinically tested product. It is also one of the most absorbable forms of carnitine on the market - meaning you'll get all of the benefits with less product. No matter your age or fitness level, adding NOW Foods L-Carnitine Liquid to your supplement regimen is a great way to support overall health and vitality.

In Summary:

L-carnitine is a non-essential amino acid with powerful health benefits that becomes more important as we age.* Supplementing with a pure, clinically tested product like NOW Foods L-Carnitine Liquid is an excellent way to ensure you're getting enough carnitine to support overall health and vitality.* Give it a try today!

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6542)

Date: October 25, 2022 04:49 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: The Many Health Benefits of Copper Glycinate

You may not realize it, but copper is essential for many different bodily functions. This trace mineral is involved in energy production, iron metabolism, connective tissue syntheses, and neurotransmitter production. Copper is also critical for bone health, cardiovascular health, lipid metabolism, neurological health, skin health, and free radical protection. Keep reading to learn more about the many health benefits of copper.

Copper and Energy Production

One of the most important roles that copper plays in the body is in energy production. Copper is a key component of mitochondria, which are known as the "powerhouses of the cell." The mitochondria produce ATP (adenosine triphosphate), which is the energy currency of the cell. Therefore, without adequate copper levels, your cells would not be able to produce enough ATP for optimal function.

Copper and Iron Metabolism

Another important role of copper is in iron metabolism. Copper is necessary for the absorption and utilization of iron in the body. Iron is a key component of hemoglobin, which carries oxygen around in the blood. Therefore, without adequate copper levels, your body would not be able to properly utilize iron, leading to anemia or other problems.

Copper and Connective Tissue Synthesis

Copper is also necessary for the synthesis of collagen and elastin, two proteins that make up connective tissue. Connective tissue includes things like skin, tendons, ligaments, and cartilage. Therefore, copper is necessary for healthy skin as well as strong tendons and ligaments.

As you can see, copper plays many vital roles in the body. If you are deficient in copper, you may experience fatigue, anemia, weak bones or connective tissue, problems with lipid metabolism or neurological function, or poor skin health. To ensure that you are getting enough copper in your diet, eat foods like liver, oysters, lobster, dark chocolate, avocados, almonds, mushrooms ,or leafy green vegetables. You can also take a copper supplement if needed.

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6526)

Date: September 30, 2022 12:37 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: The Benefits of NOW Clinical Cardio

If you're looking for a comprehensive way to support optimal cardiovascular health, look no further than NOW Clinical Cardio. This powerful combination of targeted nutrients and botanicals helps promote healthy cardiovascular structures and functions.* With L-carnitine and CoQ10 to support energy production in the heart, hawthorn and MegaNatural®-BP™ grape seed extract to support blood pressure already within the normal range, and MK-7 to help maintain arterial flexibility, Clinical Cardio offers a broad range of benefits for those looking to maintain a healthy heart.*

How NOW Clinical Cardio Works

NOW Clinical Cardio is a powerful formula that contains a combination of targeted nutrients and botanicals that are known to support optimal cardiovascular health.* The nutrients and botanicals in Clinical Cardio work synergistically to provide a comprehensive approach to maintaining a healthy heart.*

L-carnitine is an amino acid that is synthesized in the liver from methionine and lysine. L-carnitine plays an important role in energy production by transporting fatty acids into the mitochondria where they can be used for fuel.* In addition, L-carnitine has been shown to support healthy heart function and protect against oxidative stress.*

CoQ10 is another important nutrient for energy production, as it is involved in the electron transport chain in mitochondria.* CoQ10 levels have been shown to decline with age, so supplementation may be especially important for older adults.* Like L-carnitine, CoQ10 has also been shown to support healthy heart function while protecting against oxidative stress.*

Hawthorn is an herb that has been used traditionally for centuries to support cardiovascular health. Hawthorn's primary mechanism of action is vasodilation—the widening of blood vessels—which supports healthy blood pressure already within the normal range.* Additionally, hawthorn has antioxidant activity and can help protect the heart from free radical damage.*

MegaNatural®-BP™ grape seed extract is a patented extract of whole red grapes that has been shown in clinical studies to help maintain already healthy blood pressure levels.* MegaNatural®-BP™ contains polyphenols—powerful plant compounds with antioxidant activity—which may help explain its beneficial effects on blood pressure levels.*

MK-7 is a form of vitamin K2 that is derived from natto, a traditional Japanese fermented food. Vitamin K2 is involved in calcium metabolism and has been shown to promote arterial flexibility by keeping calcium hydroxyapatite out of soft tissues such as arteries.* By promoting arterial flexibility, MK-7 helps maintain healthy blood flow throughout the body.*

Conclusion: NOW Clinical Cardio is a comprehensive formula that contains nutrients and botanicals that are known to support optimal cardiovascular health. With L-carnitine and CoQ10 for energy production, hawthorn for blood pressure support, MegaNatural®-BP™ grape seed extract for antioxidant protection, and MK-7 for arterial flexibility, Clinical Cardio offers a broad range of benefits for those looking to maintain a healthy heart. Try it today!*

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

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6476)

Date: April 28, 2022 04:19 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: What Cellular Mitochondria Does in the Body

If you want to stay healthy, it's important that you know what cellular mitochondria does in the body. Mitochondria are organelles found in the cytoplasm of cells. They are responsible for producing energy for the cell. Without them, the cell would not be able to function properly. We will discuss the role of mitochondria in the body, and how they impact our health.

What are mitochondria and what do they do in the body

Mitochondria are organelles that play an important role in the energy metabolism of cells. Most of the oxygen we breathe is used by mitochondria to convert glucose from the food we eat into ATP, the energy molecule used by our cells. Therefore, mitochondria are often referred to as the "powerhouses" of the cell. In addition to producing ATP, mitochondria also have other important functions, such as regulating cell growth and death, as well as calcium homeostasis. Mitochondria are unique in that they have their own DNA separate from the DNA in the cell nucleus. This mitochondrial DNA is passed down from mother to child, which is why defects in mitochondrial function can lead to diseases that are inherited in a maternal lineage. Although most of our cells contain only a single nucleus, they may contain hundreds or even thousands of mitochondria. This allows them to produce enough ATP to meet the energy needs of the cell.

How mitochondrial dysfunction can lead to health problems

Mitochondria are integral to many essential physiological processes in the body. Not only do they produce energy for cells, but they also play a key role in maintaining cellular structures and initiating cell division. Therefore, any disruption of normal mitochondrial function can have far-reaching consequences for overall health and well-being. Maladaptive responses to environmental stressors, such as chemical exposure or radiation, are among the most common causes of mitochondrial dysfunction. These stressors result in damage to mitochondrial DNA and can cause problems with cell division and abnormal growth patterns, which can lead to a range of disorders and chronic diseases. For example, mitochondrial dysfunction has been linked to conditions like Alzheimer's disease and type 2 diabetes, as well as cardiovascular disease and cancer. Therefore, it is important to understand the role that mitochondria play in maintaining healthy functioning bodies and take proactive steps to prevent or reverse damage from maladaptive responses to environmental stressors.

Mitochondria and Longevity

Mitochondria are specialized organelles found within our cells that perform many critical functions, including generating energy to support cellular processes and maintaining healthy cell function. These organelles are the site of many important chemical reactions, often referred to as oxidative phosphorylation or metabolism. Studies have shown that Proper functioning of these organelles is essential for healthy aging, and may be a key factor in determining how long we live. By promoting mitochondria health and making lifestyle changes that help to promote healthy mitochondria, we can take an important step towards optimizing our longevity potential. This includes eating a nutrient-rich diet with a focus on foods high in antioxidants, managing stress levels through regular exercise and relaxation techniques, and avoiding environmental toxins that can damage mitochondria health. Through such strategies, we can give ourselves the best chance at living a long, full life.

Ways to protect your mitochondria and keep them healthy with PQQ

PQQ, or pyrroloquinoline quinone, is an important molecule for the functioning of mitochondria in the human body. This compound plays a crucial role in adenosine triphosphate (ATP) synthesis, the fundamental energy currency of biological systems. By driving cellular processes that release energy for metabolic use, PQQ plays a key role in maintaining mitochondrial health and efficiency. Additionally, PQQ has been shown to exhibit powerful antioxidant properties, which help to mitigate the effects of oxidative stress on mitochondria and other critical cells in the body. Overall, PQQ is an essential component of healthy mitochondrial function and a crucial nutrient for energy production and overall metabolic health.

D-ribose, the Mitochondria, and Energy

D-ribose is a naturally occurring sugar that plays an important role in cellular metabolism and energy production. This nutrient is especially important for cells that rely on a lot of energy, such as those found in the heart and muscles. D-ribose helps these cells to generate adenosine triphosphate, or ATP, which is the main energy currency used by cells to drive chemical reactions. Additionally, research has suggested that d-ribose can help to improve physical endurance and reduce the pain and stiffness associated with exercise, making it an important part of a healthy, active lifestyle.

Also, D-ribose is a simple sugar that plays an important role in the structure and function of mitochondria, the powerhouses of the cell. In addition to supplying energy to the cells, mitochondria also help to regulate cell growth and death. D-ribose is essential for the proper function of mitochondria, and it plays a key role in energy production. Studies have shown that D-ribose can help to improve mitochondrial function and reduce fatigue. In addition, D-ribose supplements have been shown to improve exercise performance and increase energy levels. These effects are likely due to the ability of D-ribose to help the body produce more ATP, the energy currency of the cell. For these reasons, D-ribose is an important nutrient for maintaining healthy mitochondria and supporting cellular energy production.

Another important nutrient for the mitochondria is CoQ10

The process of producing energy is called oxidative phosphorylation, and it involves the transfer of electrons from nutrients to oxygen. This reaction creates a proton gradient across the mitochondrial membrane, which is used to generate ATP, the energy currency of the cell. Coenzyme Q10 (CoQ10) is an important component of this process. It acts as an electron carrier, shuttling electrons between enzymes in the respiratory chain. It also helps to maintain the proton gradient, allowing the mitochondria to continue generating ATP. Without CoQ10, oxidative phosphorylation would grind to a halt, and cells would quickly run out of energy. Consequently, CoQ10 plays a vital role in energy production and cellular metabolism.

The bottom line is that both D-ribose and CoQ10 are important nutrients the body needs to maintain optimal energy levels. If you’re feeling run down, low on energy, or just generally not your best, consider taking a supplement containing these two nutrients. You may be surprised at how much better you feel once you start including them in your diet. What’s stopping you from giving them a try?

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6395)

Date: April 27, 2019 11:30 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Powerful antioxidant helps us burn fat, lose weight and avoid premature aging

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6208)

Date: April 22, 2019 04:29 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Coenzyme Q10: Research confirms ubiquinone and ubiquinol are nearlyequally-absorbed ...

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6152)

Date: April 17, 2019 02:34 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Medical News Today: Alpha-lipoic acid: Everything you need to know

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6138)

Date: September 05, 2018 09:52 AM
Author: VitaNet, LLC Staff (support@vitanetonline.com)
Subject: Stop feeding cancer cells! This is the diet mistake you probablymake that can cause cancer

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=5747)

Date: August 24, 2018 09:53 AM
Author: VitaNet, LLC Staff (support@vitanetonline.com)
Subject: Why your brain fails as you age, what you can do now

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=5721)

Date: May 27, 2017 07:14 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Scientists Say: Mitochondrion

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=4710)

Date: May 13, 2017 11:44 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: One of the Best Brain Boosters, yet Hardly Anyone Does It

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=4606)

Date: April 27, 2017 04:14 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: More ailments could be added to cannabis oil treatment list

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=4491)

Date: February 18, 2017 10:59 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Study Says Inflammation Is Keeping You Fat

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=3968)

Date: January 08, 2017 10:59 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: The Conversation US: 13 ways to keep free radicals away, and why it's so important

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=3757)

Date: December 27, 2016 10:59 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: CoQ10 — A Nutritional Powerhouse for Mitochondrial Health

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=3707)

Date: December 10, 2016 02:23 AM
Author: Darrell Miller
Subject: How Glutathione Reduces Effects Of Parkinson's Disease

Parkinson's Disease is an incurable chronic and movement disorder that results from the death of neuron cells of the substantia nigra area of the brain. The symptoms associated with this disease worsen as one ages.When the neurons die, they release a chemical called dopamine that is a neurotransmitter that relays messages to movement and coordination centers of the brain. As one ages, the dopamine level produced decreases making it hard for transmission of messages to this part of the brain responsible for movement and coordination. This makes the patient unable to control movement of body parts.

Symptoms of Parkinson's Disease:

• The patient experience tremors in the hands,legs,face and jaws.
• Stiffness of the trunk and the limbs as well
• Slow movement in the patients
• Lack of controlled and stable balance

How To Reduce Effects Of Parkinson's Disease:

PD currently has no cure. However, doctors do surgeries and other medical procedures on affected parts of the brain to reduce effects of this disease. Researchers worldwide agree that there could be a breakthrough in the treatment of this chronic disease with the administration of glutathione (GSH) to patients. The supplement works in the following ways:

Our bodies naturally produce glutathione which is an antioxidant. Its production however reduces progressively as one ages. Its main role is to fight free radicals which may build up to cause oxidative stress. Patients should thus take the glutathione supplement daily to help them fight this oxidative stress which causes PD.

Glutathione also supports mitochondria. This ensures consistent energy production in mitochondria. This energy is useful in the fight of PD. Glutathione makes the brain effectively use dopamine and detoxifies the body. This ensures that heavy metals which may attack the brain are regularly removed from the body. Numerous studies are however still underway to determine how this supplement can be used effectively. Glutathione should not be taken orally as it is broken down in the gut before it can be used in the brain cells.

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=3609)

Date: November 21, 2016 01:09 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Gut bacteria unleash anti-aging power of pomegranates

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Date: November 05, 2016 10:54 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Top 10 amazing, indigenous, all-natural cures from around the world

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=3391)

Date: December 25, 2014 08:08 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Mother Nature’s Best Secret is Grape Seed Extract

Benefits of Grape Seed

French Grape Seed Extract Helps the Heart and Arteries:

Grape seed extract is a powerful antioxidant, the benefits resemble a type of fountain of youth that invigorated individuals and improved cardiovascular health and improved weakened collagen levels. Research indicated that individuals who resided in France and consumed red wine enjoyed a longer lifespan due to consuming wine that possessed a high content of a type of flavonoid called proanthocyanidin.

Scientists discovered that grape seed extract worked its magic at the gene level in cells, activating triglycerides metabolism, reducing inflammation and improved cholesterol levels. Scientific papers also indicated that grape seed extract properties appeared to stop and or reduce plaque deposits in arteries.

By refining the content of a red grape down to an extract, the high flavonoid pranthocyanidin content provides enormous benefits.

French Grape Seed Extract and Blood Sugar:

High blood sugar damages the heart and hardens it resulting in heart attacks and heart disease. Researches uncovered a secret of grape seed extract; it activated a blocker at the gene level stopping the body from heart hardening. Turning on this element at the cellular level deep inside of the mitochondrial DNA of a human being has assisted diabetic cardiomyopathy. French grape seed extract has an amazing impact on the body with blood sugar levels.

French Grape Seed Extract Boosts Immune Function:

Germ managing elements have been identified inside of grape seed extract; it is a powerful anti-candida, reducing harmful bacteria keeping it in a healthy balance. People that are overweight who take the extract find that they reduce their calorie intake naturally. Persons who suffer with Alzheimer’s disease, if they are given the extract improve and maintain a higher mental function. This extract is excellent for all parts of your body, boosting the immune function at all levels.

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=3165)

Date: March 06, 2014 03:27 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Is Cocoa Butter Good For The Skin? Why?

Cocoa butter

Doubtlessly, there are few preferred healthy skin items over cocoa butter and some few that likewise makes you feel great deductively notwithstanding feeling extraordinary because of the way your skin looks so great, but Cocoa butter is good solid skin reinforcement, and for additional data on characteristic healthy skin items with a great experimental foundation. Therefore it is good for the skin.

Reasons to why cocoa butter is good for your skin:

Powdered cocoa butter contains a lot of diverse antioxidants which behave synergistically presenting a massive bothersome resistant to the cost-free radicals which eliminate your skin layer cells along with lead to quick getting older. Therefore, therefore, is it doesn't suitable natural skin care solution.

Let's have a look at which record again. Precisely why your 'ideal' natural skin care solution? In order to solution which question, we need to have a look at precisely what antioxidants tend to be, along with precisely what hot cocoa butter can perform them, along with after that the reason why it is advisable than additional natural skin care merchandise on the market.

Totally free radicals tend to be small substances kinds in the body's fat burning capacity while vitality is generated coming from blood sugar in the mitochondria of each and every cell phone within your body. Fortunately they are shaped simply by experience of toxins including pesticides, along with particularly the several poisonous pieces of cigarette light up. Cigars along with water lines tend to be believe it or not harmful than tobacco, along with filtration system guidelines make not any difference towards the production connected with cost-free radicals.

What exactly that they do is always to eliminate cells, when they're pores and skin cells you continue to grow older. Your skin layer wrinkles along with dries up, and you begin to take on the style connected with an individual many years over the age of you're. These people try this by way of a procedure often known as oxidation, along with antioxidants can certainly keep the idea. These people reduce the effects of your cost-free radicals, and forestall your skin layer cells coming from getting ruined.

Contents of cocoa

Powdered cocoa butter contains several different antioxidants that can eliminate away from numerous diverse cost-free radicals along with superoxides, as well as hydrogen peroxide. Vitamin e is really a powerful antioxidant -- your strongest of all the so-called antioxidant vitamin supplements in fact, and will quickly eliminate away from hydrogen peroxide along with any oxidizing agent. Others tend to be vitamin supplements A new along with G, however they can not strategy the potency of vitamin E.

Furthermore, it contains phytochemicals (posh title pertaining to place chemicals) including flavanoids which might be also powerful antioxidants. Polyphenols are very effective in neutralizing cost-free radicals, and the hot chocolate mass polyphenols tend to be in particular successful. In fact, hot chocolate butter boasts a greater antioxidant awareness and then possibly blueberries as well as other so-called superfoods.

In order that hot cocoa butter to work, it will email numerous of the pores and skin cells as is possible, that involves do away with the idea properly directly into your skin layer. The epidermis is incredibly absorbent all of which will eliminate cost-free radicals in the reduced absolute depths of the pores and skin as soon as they're created, along with ahead of they are able to do injury.

It is clinically demonstrated which hot chocolate butter will certainly keep pores and skin degradation a result of the harmful consequences from the UV light in the rays of the sun -- UV rays builds cost-free radicals which are very effective in doing damage to pores and skin. Merely go through the influence connected with sunburn! However, there is additional in order to hot chocolate butter than which.

It contains a substantial percentage connected with vitamins as well as lime scale, potassium, magnesium, zinc, manganese, copper along with metal, all of which come in a highly bioavailable style which make them far better which business vitamins. Not just that, though. Furthermore, it contains tryptophan, involved in the development connected with serotonin, your 'feel good' neurotransmitter, and also dopamine along with phenylethylamine, many beneficial materials. It is a mental faculties food as well as food to your pores and skin.

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Date: November 21, 2013 08:43 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Boost Energy With CoQ10 And L-Carnitine

CoQ10 and L-Carnatine

CoQ10 and L-Carnitine offer double protection for the heart and the brain in just a single tablet. You obtain all benefits for your heart at 100% from CoQ10, while L-Carnitine supports your memory, learning ability, and focus. The exclusive combination of CoenzymeQ10 and L-Carnitine encloses an absorbable, water soluble capsule of CoQ10 and L-Carnitine, which is important for proper usage.

• Cognitive function and concentration support
• Cell membrane health support
• Improves clarity and happiness

• Supporting your heart's energy needs
• Providing essential nutrition for all cells of the body
• Delivering powerful antioxidants, which protect your body

1. //www.webmd.com/heart-disease/heart-failure/tc/coenzyme-q10-topic-overview
2. //www.webmd.com/vitamins-supplements/ingredientmono-1026-L-CARNITINE.aspx?activeIngredientId=1026&activeIngredientName=L-CARNITINE
3. //www.poliquingroup.com/ArticlesMultimedia/Articles/Article/767/Top_12_Reasons_to_Use_Carnitine.aspx
4. //nutritionalengineering.org/coq10-acetyl-l-carnitine-supplement.htm
5. //www.livestrong.com/article/489829-why-should-i-take-l-carnitine-with-coq10/

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Date: November 13, 2013 02:52 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Astaxanthin Protects The Eye And More!

Astaxanthin is a carotenoid that is commonly found in the marine environment. It is naturally found in salmon, krill, trout, crayfish, shrimp, crustaceans and yeast. It is the chemical that is responsible for the red color in cooked shellfish and salmon meat. The algae Haematoccus has the richest natural source of astaxanthin.

Astaxanthin can also be produced synthetically, but due to the synthetic product consisting of different steriosmers it is not preferred to be used in some cases.

Unlike beta-carotene it has two more oxygenated groups on each of its ring structure, these additional functional groups make it a highly potent antioxidant and give it a configuration that is more polar than that of other carotenoids. Vitamin E has been known as the strongest antioxidant both in topical use in cosmetics and in internal use, but research has shown that astaxanthin has a greater antioxidant strength than Vitamin E. For example in the quenching of singlet oxygen it has an antioxidant strength five hundred times stronger than Vitamin E.

Unlike many other antioxidants it has the ability of crossing the blood-brain barrier and enter into the eyes, brain and central nervous system (CNS). Most diseases of the CNS and eye are caused by increased generation of free radicals or by a decrease in the ability to remove free radicals from the body. Some of the diseases that are caused by problems with inflammation and oxidation include Glaucoma, Cataracts, and Huntington’s disease. These can be prevented by taking astaxanthin.

It has anti-inflammatory properties that are related to its strong antioxidants properties. It suppresses some of the inflammatory mediators such as, prostaglandin E-2 (PGE-2), tumor necrosis factor –alpha (TNF-a), and nitric oxide. Unlike other anti-inflammatory drugs like acetaminophen that can damage the liver and aspirin that may cause stomach bleeding, astaxanthin doesn’t have any side effects.

In people suffering from rheumatoid arthritis and carpal tunnel syndrome it has the ability of reducing pain. Studies have shown that it is able to reduce pain in rheumatoid arthritis by 40% after 8 weeks of continuous use.

It prevents Ultra Violet induces oxidative stress of the skin and prevents the photo aging of the skin. It prevents UV induced formation of wrinkles and collagen degradation in the skin. It may be applied on the skin or taken orally.

In people participating in sports it eliminates the soreness of joints after exercise, and reduces the pain caused by inflammation. This enables athletes to train harder and as a result increase their endurance, skill, and strength. This is through its ant-inflammatory and ant-oxidant effects in the mitochondria (energy producing organelle).

It strengthens the immune system, research by scientists has shown that it causes increase in production of T cells, stimulates the proliferation of lymphocytes, amplify the cytotoxicity of natural killer cells, decrease damage of DNA, and increases significantly delayed type hypersensitivity syndrome.

It prevents heart disease and reduces the risk of people already suffering from heart disease form getting a stroke or heart attack. It improves the blood lipid profiles by increasing HDL (high density lipoprotein) and decreasing LDL (low density lipoprotein).

The liver main function of the liver and kidney is the detoxification and removal of harmful substances in the body. These activities lead to the formation of free radicals. Astaxanthin being a strong antioxidant helps by destroying these free radicals hence it eliminates their oxidative effects.

As a result of its immune benefits Astaxanthin also has anti-tumor properties and as a result it prevents the development of cancer. Its prevention of cancer is also caused by its antioxidant properties and by it regulating gene expression.

References

1. //www.peakhealthadvocate.com/2826/astaxanthin-benefits-include-eye-heart-health/

2. //articles.mercola.com/sites/articles/archive/2013/02/10/cysewki-discloses-astaxanthin-benefits.aspx

3. //www.lef.org/magazine/mag2013/apr2013_Astaxanthin-Provides-Broad-Spectrum-Protection_01.htm

4. //www.vitguide.com/astaxanthin-benefits/

5. //www.greenmedinfo.com/blog/astaxanthin-supercharged-health-benefits

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Date: April 18, 2013 07:37 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: What Are The Health Benefits Of Quercetin?

Quercetin is a bioflavonoid found in grains, leafy greens, vegetables and fruits, and has proven beneficial in the recent years. Plants often generate this flavonol to preserve vitamins and guard themselves against cell injury, bacteria and parasites. Onions, red wine, tea and apple skins are particularly rich in quercetin, which can render several health benefits. Most of these benefits can be attributed to the antioxidant properties of quercetin.

Here are the health benefits of quercetin.

Heart Disease: The antioxidant properties of quercetin can reduce the risks of plaque development in the arteries, which is also referred to as atherosclerosis. Moreover, its anti-inflammatory properties can also prevent damage associated with LDL cholesterol; one of the major causes of heart disease. Since this antioxidant is naturally found in fruits and vegetables, regular intake of quercetin will help in enhancing heart strength. Hypertension or blood pressure can also be controlled with adequate consumption of quercetin.

Protection against Allergies: The anti-inflammatory properties of quercetin have proven quite effective against many allergic reactions like allergic cough, hay fever, hives and asthma among others. It achieves this by inhibiting the production of histamine and other related inflammatory mediators. Therefore, it can reduce the risks of getting infected with various allergic conditions and help in speeding up recovery from these allergies.

Possible Cancer Protection: Just like most antioxidants, quercetin has cancer inhibiting properties. The antioxidant properties of quercetin shield the cells against free radicals by reducing their growth and neutralizing their negative effects in the body. Some in-vitro studies have proven that it can control cancer cells development and may reduce the chances of contracting prostate, colon, ovarian and breast cancer. It can also help people suffering from chronic interstitial and prostatitis cystitis because it acts as an effective mast cell inhibitor.

Cataracts: Quercetin can block the type of sugar which triggers the development of cataracts on your eye. Smokers or those who expose their eyes to excessive UV rays without wearing protective glasses may consider quercetin intake to reduce the risks of cataract formation. Improve Arthritis: Just like most anti-inflammatory drugs, quercetin can help people suffering from arthritis. It is believed that quercetin can reduce the pain and swelling that affects joints due to arthritis. According to some studies, change of diet from the normal western diet to a diet that focuses on vegetables and fruits with high quercetin can alleviate the symptoms of arthritis.

Athletic Ability: Some studies show that consumption of quercetin twice every day enhances oxygen capacity and endurance in active women and men. The athletic ability improvement is attributed to the positive effect of quercetin on the cell energy processors, mitochondria. This effect coupled with the antioxidant properties of quercetin can boost the immune system and might lead to general health improvement.

Other Heath Benefits: Some studies show that quercetin acts as a neutrotoxin hence can help in getting rid of neurological diseases. Since quercetin can help in free radicals control, it can also offer skin care benefits. It can also boost your immune system.

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Date: March 26, 2013 12:27 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: CoQ10: What You Ought to Know about This Substance?

Coenzyme Q10 or simply CoQ10 is a substance naturally present not only in a human's body but as well as with the other mammals. It plays a vital role in the production of energy. Back in the year 1957, Dr. Frederick Crane successfully used the mitochondria from the cells of a beef heart in order to locate Coenzyme Q10. But the truth of the matter is that, the substance is also present in human mitochondria. Basically, this substance has antioxidant properties which are highly beneficial in protecting the body against the free radicals present in the environment. Below are some relevant details you ought to know about this substance.

Here they are:

CoQ10 in Kreb's Cycle

There are a number of chemicals that the body needs to induce metabolism and one of those chemicals is CoQ10. The Kerb's Cycle is the body's mechanism to convert certain enzymes into energy. In order to achieve that, the body needs CoQ10 to facilitate the conversion of the enzymes in energy production. CoQ10 is fundamental in the Kerb's Cycle as it supports the electron transport chain in which the oxidative phosphorylation of the ADP (adenosine diphosphate) into ATP (andenosine triphosphate) needs electrons that are exactly delivered where they must be. Without CoQ10, the entire Kerb's Cycle process would certainly fail. The mitochondria of every power cells synthesize CoQ10 so the substance is present in almost all the body parts. However, the heart consumes the most CoQ10 for the reason that it has the most number of mitochondria and it keeps on working even while the body is at rest.

CoQ10 Deficiency

If the Kerb's Cycle fails due to CoQ10 deficiency, the person will feel exhausted and weak. But aside from that, there are other conditions that are often associated with the deficiency such as cardiovascular related diseases, Parkinson's disease and gum disease. Conversely, it doesn't necessarily mean that those diseases are brought about by CoQ10 deficiency.

CoQ10 Dietary Sources

The main sources of CoQ10 include fish oil, whole grains and organ meats. With a balance diet, people can get sufficient amount of coenzyme Q10.

CoQ10 Supplements

Aging is an inevitable process and it can affect the synthesis of CoQ10. As humans grow older, the production of the coenzyme Q10 gradually decreases. It was mentioned earlier some of the foods that are incredibly beneficial in maintaining ample amount of CoQ10 in the body. But people who do not really include those foods in their diet should not worry for there are now food supplements that contain CoQ10.  Some medications like cholesterol meds can prevent the body from using CoQ10, this is when it is essential for one to take a supplement.

Fortunately, with the advent of medical researches and innovative technology in drug manufacturing, CoQ10 can now be ingested into one single tablet, soft gel capsule, hard shell capsule or an oral spray. CoQ10 is a fat-soluble substance so taking it along with foods is highly encouraged.

Who Takes CoQ10 Supplement?

Children under 18 years old are not allowed to take CoQ10 supplements unless prescribed by the doctor. For adults at the age of 19 or older, the recommended dosage in 30 - 600 mg daily. Higher dosage may be taken for special conditions.

Humans need energy in order to carry out all the tasks. Therefore, CoQ10 must be taken daily, whether from foods or supplements, so the body has the energy to move.

Have you had your CoQ10 Today?

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Date: January 21, 2013 01:32 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Can Resveratrol Help Fight DNA Damage?

How resveratrol helps in fighting DNA damage

Resveratrol is a naturally occurring antioxidant produced by plants to protect them against attacks by predators such insects, bacteria or fungi. This antioxidant which has been the subject of several scientific studies is usually found in large quantities in grape skin or red wine. Although the body can function without it which means that you can not be termed as deficient of this nutrient, the compound is known to have immense health benefits. Scientists claim that human beings have not yet fully discovered the real benefits that can be derived from this antioxidant.

Scientists have demonstrated that Resveratrol is quite effective in fighting DNA damage which is responsible for aging as well as disorders that are associated with aging including Parkinson's and Alzheimer's disease. Cell degeneration in vital organs is usually linked to certain factors. An important factor that causes cell loss is the presence of reactive oxygen species (ROS) by mitochondria in the cell which is responsible for cell death and DNA damage. Preventing mitochondria turnover and bio-genesis guards against oxidative mitochondria thus promoting healthy aging.

Cell degeneration has been effectively controlled by using a diet that is low in calories so as to increase mitochondria biogenesis. Adding resveratrol to your diet has the same effect since this antioxidant mimics dietary restriction thus delaying diseases related to aging.

The compound has been known to stall the aging process by acting as sirtuin activator. It is also responsible for various effects on fat cells which alter fat mass by acting on cell viability and adipogenesis in mature preadipocytes. Laboratory tests have demonstrated that this compound stimulates bio-genesis which helps in delivering immense health-related benefits in mice. The antioxidant fights off cancer which occurs when there is cell damage during cell division. The compound stops cell division in order to allow enzymes repair damaged genes .It also prevents carcinogenic metabolism, a common cause of DNA damage.

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Date: October 26, 2012 11:04 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Coq10 and its benefits

CoQ10

We insist that vitamins and essential nutrients should be an essential part of our daily diet. But are we aware that some vitamins and chemical nutrients are also created naturally in our bodies? One such essential compound is known as Coq10. Found in most living organisms, Coq10 also known, as ubiquinone is a chemical that boosts the levels of energy produced in the body. It monitors the functioning of the mitochondria and cells that are useful for metabolizing the fat in the body. Without the presence of this essential compound, there could be some serious problems. Here are its respective virtues for people.

Heart And Muscle Repair

Scientific studies have proved that the enhanced production ofCoq10 has helped to solve some major health issues for people. The enhanced production of the compound was instrumental in strengthening the muscles and tissues of the heart. This meant that adequate levels of Coq10 help to reduce the congestion in the heart and veins. Also, the presence of this ubiquitous compound will also help in getting respite from muscular dystrophy. Also, those, who are vulnerable to breathing problems and arrhythmia, can also find a solution through such a compound in their bodies.

Immunity And Blood Pressure

Those, who have the problem of high blood pressure, would be advised to eat more of things like fish or meat as these contain Coq10 in good amounts. Adequate levels of this chemical will aid in reducing the levels of blood pressure and improving the circulation of blood in the body. Also, Coq10 is known for improving the person's immunity against the common degenerative diseases as well as cancers and malignant tumors and so on. Thus, it can be safely said that Coq10 is a powerhouse of nutrients that help to keep disastrous afflictions at bay. You should have more of it.

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Date: October 05, 2011 04:27 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Can Ginseng Boost Your Energy Safely?

Ginseng is a slow - growing perennial plant in which its roots are fleshy which are commonly used as dietary supplement and beverage. This plant is a member of the genus known as Panax of the family of Araliaceae. It grows abundantly in the eastern part of Asia where the climate is cool specifically in Korea, northern China and east region of Siberia. There are many species of ginseng in which they are named according to where they are discovered. What is common among these ginseng species is its property as an adaptogen.

Ginseng is an herb which is considered as an adaptogen. This classification of chemicals improves the body’s resistance to physical exhaustion and external stress. In fact, for almost twenty centuries, Ginseng has been commonly used as a natural dietary supplement to boost vitality and endurance. The mechanism is that cellular energy is produced in the cell’s powerhouse called mitochondria which turn nutrients into usable energy called Adenosine Triphosphate (ATP) and Creatine Phosphate (CP). However, when we are under stressful situations, the body produces hormones which can alter the ability of the mitochondria to produce ATP and CP. Thus, energy levels are also reduced. Eventually, adaptogenic substances plays a critical role in improving the cell’s production of ATP and CP by allowing the body to deliver more oxygen to cells while greatly reducing oxidative damage affecting the mitochondria of the cells.

Not to mention, ginseng also has ginsenosides which are considered to effectively control the release of stress hormones such us cortisol and noradrenalin, thus, preventing chronic stress which can greatly affect one’s energy level. Studies show that ginseng also relaxes the blood vessels thereby improving circulation and delivery of oxygen to the cells of the body. Clinical research reveals that ginseng has the high potential to improve performance of athletes. It can boost stamina.

Other benefits of Ginseng are that it can serve as a nourishing stimulant to improve depression and as adjunct treatment for Diabetes Mellitus Type II. It can also be employed as a support agent for the improvement of sexual dysfunction among men.

The fleshy root of Ginseng is available in the market in dried form which may be whole, sliced, minced or semi – granule form. These ginseng products are often found in many energy drinks, teas, health drinks, food additives and energy – boosting supplements. Other commercial products which contain ginseng are also common such as shampoos, conditioners, skin moisturizers, soaps and even cosmetic items. This is for the reason that ginseng can effectively delay the ageing process and improve the health of the cells and tissues. Ginseng also has the ability to enhance memory, reduce mental fatigue and improve the health of the immune system. To note, ginseng combined with Gingko biloba can considerably stimulate memory among middle – aged individuals.

Ginseng is generally safe to use for any ages. In fact, this herb is widely used as day – to – day beverage among many people in Asia especially in Korea. However, if you are planning to undergo supplementation, it would be best that you should seek medical advice first.

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Date: October 04, 2011 04:18 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: How Does Coenzyme Q10 Improve Energy Levels and Our Health?

One of the most amazing and essential chemical cofactors is coenzyme Q10. This specific cofactor plays a crucial role for the body because it is required by cells to produce enough energy to sustain life. Studies revealed that coenzyme Q10 can increase the level of energy of all the muscles in the body therefore, it is beneficial most especially for the cardiac muscles to achieve optimal rate.

Coenzyme Q10 also provides the immune system with enough power and energy so that the body will be protected from injurious pathogens. It can also help in releasing fat storage by enhancing oxygen utilization. Because of the fact that the production of coenzyme Q10 decreases as we age, there is a great need to take supplements so that we will not be depriving our body with the health benefits that it offers. Below is the array of health benefits that coenzyme Q10 is capable of offering:

Coenzyme Q10 toughens your protection against pathogens

It is an inevitable fact that our immune system requires enough energy to sustain it from performing its functions. Coenzyme Q10 has been proven essential in terms of strengthening the immune system especially in instances when an invader is detected. Coenzyme Q10 offers vital support to our natural killer cells (our first line of defense) in fighting bacterial and viral agents that could cause great harm to our body.

Another health benefit of coenzyme Q10 is its capability in lowering the concentration and regulating the production of chemicals such as NF-kappaB, which could weaken our immune system. Based on the studies that were conducted, it has been unleashed that increasing blood levels of coenzyme Q10 could enhance the antibody response to as much as 57% hence, it is highly essential in keeping our body well protected.

Coenzyme Q10 is good for you heart

We are aware that ATP is the primary unit of energy that is being utilized by the mitochondria of our cells; to sustain the process, the body only recognizes coenzyme Q10 to act as chemical facilitator. A deficiency in the amount of coenzyme Q10 in the body would also equate to poor muscle functioning.

As a matter of fact there was this study that revealed that when coenzyme Q10 is combined with other forms of potent antioxidants like selenium, vitamin C and vitamin E, it can relevantly enhance the health of your heart and can lower down your risk of developing cardiovascular diseases.

Coenzyme Q10 can help you lose weight

This special coenzyme supplies your body with enough energy to ensure the efficacy of your exercise program by increasing fat metabolism and energy utilization. Because coenzyme Q10 can help the conversion of energy components into a more useful form, it can help stimulate your metabolic rate thus helping you achieve the body that you have always wanted. Experts suggest that you should combine coenzyme Q10 with regular aerobic exercise to make it more efficient for your body to get rid of fats.

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Date: August 22, 2011 12:37 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: How Does Malic Acid Help With Fibromyalgia?

Fibromyalgia(FM) is a condition affecting primarily middle-aged women and is often misdiagnosed and misunderstood as an ailment which has a diverse set of symptoms, in which none are pleasant. It basically is a medical disorder defined by chronic and widespread pain, a heightened response to pressure and often time painful as well. No one really knows what the exact causes are. There are a number of studies taking place and done by reputable medical organisations (such as the Nation Institute of Arthritis and Musculoskeletal and Skin Diseases - NIAMS) which are geared towards the establishment, once and for all, of the route cause of Fibromyalgia. A part of the current scientific theories is the inherent genetic factor, but even in this it seems that geneticists are not clear as to which genes exactly may be the culprit. What has been concretely established and clarified though is that not just because your mom or dad has it you’ll have it. Stress in some studies has also been found as a contributor but may not be the main cause though.

Malic acid is an organic compound and also a carboxylic diacid and is an active ingredient in many sour or tart foods. It is mostly in unripe fruits and it has two stereoisomeric forms (L- and D-enantiomers), though only the L-isomer exists naturally. The salts and esters of this diacid are called malates. The malate anion is an intermediate in the citric acid cycle. However it was not until 1785 that Carl Wilhelm Scheele first isolated it from apple juice. It is formed in metabolic cycles within the cells of plants animals and humans. A somewhat large amount of Malic Acid is produced and broken down in the body each day. Malic acid also provides stamina and endurance within the muscle cells. It is particularly useful in the blocking of aluminum toxics, which has been found to possibly be one contributing factors to fibromyalgia.

Energy Production

Compelling evidence has surfaced that malic acid may plays a central role in energy production, especially during hypoxic conditions. In some experiments that have been done, the improvement that came about when malic acid was administered to the subject was gone after discontinuing for 48 hours. The theory behind this is in the relative association of hypoxia to FM, if it will improve hypoxic conditions then it will be beneficial for FM sufferers as well just as Chronic Fatigue Syndrome has also been associated with FM. Additionally, many hypoxia related conditions, like respiratory and circulatory insufficiency, are related to deficiency in energy production as well. Therefore, malic acid may be of benefit in these conditions.

The mitochondria are the energy furnaces in cells which metabolize food for energy. Some findings suggest that this structure does not operate efficiently in those with FM. So, for the mitochondria to produce ample amounts of ATP, several nutrients are essential and Malic Acid is one of them. Imbalances in the mitochondria’s process can cause the body to switch from oxygen-based metabolism to the less efficient anaerobic metabolism and this would contribute to an abnormal buildup of lactic acid following even light exertion. This lactic acid buildup results in fatigue, weakness, pain and muscle spasms.

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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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Date: February 09, 2011 01:18 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: How does Malic Acid help with Fibromyalgia?

Malic Acid And Fibromyalgia

If you feel sensitized to pain by otherwise harmless stimuli, then you may be experiencing symptoms of fibromyalgia, which has been recorded to affect up to 4 per cent of the population worldwide. It is characterized by a feeling of weakness in the muscles of the limbs, conscious awareness of abnormal heartbeat, problems concerning bowel movement, and disturbances to sleep patterns. All of these are complaints reported to have been addressed by supplementation of malic acid.

The medical community remains inconclusive as to what causes fibromyalgia, some claiming it’s not a disease at all. While symptoms may not be necessarily medical signs, there are innumerable cases that describe complaints we collectively refer to as fibromyalgia. Throughout the past few decades, medical professionals around the world have considered these symptoms as one musculoskeletal disease whereas most neurologists have contended that fibromyalgia is attributable to the abnormalities within the nervous system. Today the American College of Rheumatology has charted nine paired tender points in an effort to describe the symptoms for this condition better.

Known Causes in Scrutiny

The most common symptoms of fibromyalgia more often than not appear simultaneously with stress-induced medical conditions such as chronic fatigue, anxiety disorders, and depression, but they are known to develop independently. A tissue in the brain responsible for long-term memory and spatial navigation called hippocampus have shown abnormalities among patients of fibromyalgia, thereby affecting sleep patterns, perception of pain, and related cognitive functions.

In the latter half of the 20th century it is postulated that serotonin leads to fibromyalgia. Serotonin being a neurotransmitter that governs mood, attention, and pain were found to be significantly decreased in the blood plasma and cerebrospinal fluid among patients who reported to experience this condition. That being said, the introduction of serotonin inhibitors used in treatment of depression has also shown alleviations of pain-related symptoms across the tender point index.

Malic Acid and Prognosis

Malic acid was discovered as a constituent of apple juice as early as the 18th century. Reduced levels of malic acid contribute to the maturity of fruits. In human beings it plays a fundamental role as an intermediate in a metabolic pathway that influences the chemical conversion of bioactive compounds like carbohydrates, fats, and proteins into carbon dioxide and water, which in turn convert the molecules contained in the cytoplasmic fluid of cells into energy generated in the mitochondria.

The availability of malic acid inside the human body modulates functional activities at the cellular level by speeding up the metabolism of bioactive compounds and consequently the production of energy in use by the cells. That being said, malic acid provides vitality to muscle cells, raising their endurance against stress. In addition, there have been reports that intake of malic acid help elevate levels of serotonin, leading to improved response to pain and better management of fibromyalgia.

For now, the tender point index is the primary diagnostic tool for evaluating fibromyalgia, and the use of malic acid has been recorded to reduce pain in these points.

Have you had your Malic Acid today?

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Date: January 13, 2011 05:00 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: The Krebs Cycle - Our Lifes Blood!

The Krebs Cycle, also known as the Citric Acid Cycle, is an important series of biochemical reactions that are intrinsic to cellular respiration and the generation of energy from oxygen and glucose in aerobic organisms. Although humans can generate energy anaerobically, they cannot do so for long periods and oxygen is essential for life because it fuels the Krebs Cycle. Without this cycle, there would be no available energy to maintain our vital processes.

What is The Krebs Cycle

We shall first discuss exactly what the Krebs Cycle is and then its importance in the body. The process takes place within the mitochondria of the body cells.

A. The cycle begins with the ten-step pathway of glycolysis, during which glucose is converted to two molecules of pyruvate: no oxygen is required for this step. Basically:

Glucose + 2NAD+ + 2P + 2ADP = 2Pyruvate + 2NADH + 2H+ + 2ATP

The pyruvate can then undergo aerobic or anaerobic respiration to generate energy. The Krebs Cycle is the aerobic route, and significantly more efficient that the alternative fermentation.

B. The two pyruvate molecules are then oxidized to two of Acetyl CoA with the release of carbon dioxide. The two acetyl groups of the Acetyl CoA are donated to Oxaloacetate in the presence of water to form Citrate.

C. Citrate then undergoes a number of chemical reactions to arrive back at Oxaloacetate again and the cycle starts all over again by reacting with more Acetyl CoA from Pyruvate and oxygen to form Citrate again. During the cycle more ATP is produced and electrons and other species are sent into the Electron Transfer Chain where most energy is generated.

During this cycle three major events occur:

1. During the various transformations of Citrate, specifically when Succinyl-CoA is converted to Succinate, one Guanosine Triphosphate group (GTP) is generated, which then donates a phosphate to Adenosine Diphosphate (ADP) to create the energy molecule Adenosine Triphosphate (ATP).

2. Over the whole cycle, three molecules of Nicotinamide Adenine Dinucleotide (NAD) are reduced to NADH that donates its electrons to the electron transport chain that is responsible for the generation of large quantities of ATP.

3. A molecule of Flavine Adenosine Dinucleotide (FAD) is reduced to FADH2, again donating its electrons to the electron transport system and the generation of energy.

Factor 2 and 3 are of more significance to energy generation than factor 1, and are the major means by which the Krebs Cycle generates energy.

Electron Transport Chain

The Krebs Cycle takes place within the mitochondria, structures that are contained in each of your body cells. Also within these mitochondria are a series of membranes that are very important in the generation of energy.

The major energy produced in your body cells comes from the Electron Transport Chain, a series of chemical reactions between an electron donor and an electron acceptor. Such reactions drive the transport of hydrogen ions (H+) across the membranes in the mitochondria.

The electron donors are species such as NADH, FADH2 and succinate and the electron acceptors are oxygen molecules. Hence the importance of oxygen in the process of aerobic respiration. The H+ ions are driven across the membranes and result in the conversion of ADP to ATP energy. In essence, the hydrogen atoms and electrons take part in a progressive chain of redox reactions, and at the end react with oxygen molecules and change it to water.

The Ultimate Products

Ultimately, through the whole chain and cycles of:

Glucose to pyruvate (glycolysis) Pyruvate to Acetyl CoA + CO2 (oxidation) Acetyl CoA to Citrate and the entire Krebs Cycle (reduction and oxidation) Krebs Cycle products to the Electron Transfer Chain Electron Transfer Chain to Water and ATP (redox) Final oxidation of hydrogen atoms to water

Basically: Glucose + Oxygen + 30ADP = Carbon Dioxide + Water + 30ATP

This is not balanced of course, and the ATP could be anything from 29 to 38, though 29.85 is the most accurate calculation to date. The entire process of glycolysis, oxidation, Krebs Cycle and Electron Transport Chain is powered by a series of enzymes and a small amount of ATP energy.

Glucose and oxygen are used up as the raw materials and ATP energy molecules are the product. It has been calculated that the total ATP yield obtained from one molecule of glucose lies between 29.5 and 30 molecules of ATP.

The Importance of the Krebs Cycle to Your Body

Were it not for the Krebs Cycle you would not be able to generate energy efficiently from your food. In particular, the carbohydrate content of your food. Carbohydrates are available in your diet from two sources: simple and complex carbohydrate foodstuffs such as cereals and grains, and fats and oils from animal and vegetable sources. They are also available from proteins, which are composed of amino acids at the head of the molecule with a carbohydrate tail.

Carbohydrates by definition contain only carbon, hydrogen and oxygen molecules, and can be converted to glucose within your body. Proteins can be deaminated and then the carbohydrate portion again converted to glucose. In fact, your body will initially use the carbohydrates in your diet as a source of glucose for its glycolysis to pyruvate, then the fatty tissue in your body, then the proteins will be deaminated so your body can get to the carbohydrate they contain.

Were it not for the Krebs Cycle, your body could not use the glucose as described above to generate energy. The only option open to it would be anaerobic respiration, or energy production in the absence of oxygen. ATP is still generated, but much less efficiently.

Anaerobic Respiration

Anaerobic respiration is basically respiration without oxygen. If there was no Krebs Cycle, then this is the only way your body would have to create energy.

Because no oxygen is actually needed for glycolysis or the Krebs Cycle, anaerobic respiration can proceed right to the end of the Electron Transport Chain. Then instead of oxygen being used as the terminal electron donor, it has to be another species such as nitrate or sulfate. Because the Reduction Potential of these species is much lower than that of oxygen, the amount of ATP energy produced is also much lower.

Your body tries to compensate by producing even more pyruvate and the excess is removed through lactic acid fermentation. Although this also generates ATP energy enough for short-term use, it leads ultimately to lactic acidosis and a reduction in pH, causing pain and vomiting.

Ultimately, if oxygen is not forthcoming, the brain runs short of the energy needed for it to work and you die. There is insufficient ATP generated from anaerobic respiration to maintain human life.

Conclusion

The Krebs Cycle is of critical importance for the production of energy: not just the energy to enable you to run fast, but to enable your metabolic processes to continue. It is needed for both aerobic and anaerobic respiration, and while lactic acid fermentation can be used by your muscle cells as a brief but effective means of generating short-term energy, it is insufficient to maintain the needs of your metabolism.

Without the Krebs Cycle, mammalian and most other animal life would not be viable and the world would be populated by anaerobic bacteria.

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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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Date: May 27, 2010 12:40 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Take Control Of your Inflammation With Supplements

Chronic inflammation is often induced by uncontrolled oxidative stress (free radical damage). It is the principle mechanism by which degenerative disease takes hold. By reducing oxidative stress and changing the balance within the body to favor the production of anti-inflammatory chemical messengers, one can lower their levels of inflammation. This can be achieved through conscious changes to diet and lifestyle, which includes appropriate supplementation.

By consuming foods that are rich in omega-3 essential fatty acids, EPA, and DHA, derived from fish oil or flax seeds, one can greatly influence and reduce inflammation. When the body has appropriate balances of omega-3 and omega-6 essential fats, the production of anti-inflammatory prostaglandins is favored and inflammation is kept in check. Increasing the consumption of foods that are rich in omega-3s or supplementing with a high quality fish oil suppresses the formation of harmful prostaglandins and also promotes the synthesis of beneficial prostaglandins. Since the average North American diet contains 10 to 20 times the amount of omega-6 oils that we need, the most sensibly dietary approach is to reduce sources of omega-6 oils and supplement with a high dose of omega-3 oils in order to achieve the optimal 4:1 ratio of omega-6 to omega-3.

Supplementing with flaxseed oil is another effective way to optimize your omega-6 to omega-3 ratio. Anti-inflammatory EPA can be manufactured in the body by converting the alpha-linolenic acid that is often found in flaxseed oil. Supplementing with this oil, along with restricting omega-6 fatty acid intake, raises tissue EPA levels to those comparable to fish oil supplementation. It should even be noted that flaxseed oil contains more than twice the omega-3 fats as fish oil. Additionally, alpha-linolenic acid can be found in a variety of other plant source including pumpkin seeds, walnuts, and other nuts. However, flaxseed is by far the richest source of omega-3 oil, carrying 58% by weight.

Another nutrient that plays a crucial role in inflammation is gamma tocopherol. This nutrient acts through a mechanism that is unavailable to alpha tocopherol by reacting with RNO radicals to subdue inflammation. Gamma tocopherol also has the ability to reduce inflammation by inhibiting COX-2 , which is an enzyme that has a central role in the inflammatory process as it controls the synthesis of the inflammatory prostaglandin. The consuption of gamma tocopherol has been found to reduce several other inflammatory protagonists at the site of inflammation. Strong evidence has found that this form of vitamin E exhibits potent anti-inflammatory properties that are extremely important for human disease prevention and therapy.

Similar to essential fatty acids is resveratrol and green tea polyphenols each of which have the ability to inhibit the activation of NFkB and control a wide variety of inflammatory pathways. Green tea polyphenols are also believed to be neuroprotective, as they invoke a spectrum of cellular mechanisms such as the chelation of metals, scavenging of free radicals, and modulation of mitochondrial function in nerve tissues. Green tea polyphenols are now considered to be therapeutic agents that can alter brain processes and serve as neuroprotective agents in the progression of neurodegenerative disorders like Alzheimer’s and Parkinson’s disease.

There are a wide variety of nutrients that are involved in fighting systemic inflammation. These nutrients and nutrient categories include EPA and DHA, linolenic acid, gamma tocopherol, alpha-lipoic acid, vitamin C, flavonoids, procyanidolic oligomers, and the phenolic compounds found in green tea, turmeric, and olive extracts. When changing your diet from saturated fats to unsaturated fats and adds more fruits and vegetables to their diet along with antioxidant vitamin supplements, one can successfully reduce inflammation naturally and live a healthier happier life.

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Date: May 17, 2010 10:44 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Antioxidants and your health

There is an impressive amount of scientific evidence supporting the health benefits of supplementing with a wide variety of antioxidants. Consequently, there are many health practitioners who have begun to recommend high dietary intakes of these crucial nutrients in order to prevent against oxidative stress. It was anticipated over two decades ago by leading researchers that high-dose supplementation with antioxidants is developing a significant role in the prevention and treatment of a lot of today’s common illnesses. It should be noted that antioxidants do not work in isolation. When an antioxidant neutralizes a free radical, it, itself, is oxidized and must be regenerated by another antioxidant before it can be used again. Because of this, it is crucial to supplement with a wide variety of antioxidants, in order to reflect what actually occurs in nature.

Vitamin C, an aqueous-phase antioxidant, is the main guard against oxidative attack in the extra-cellular matrix, as well as within the cytoplasm of the cell. Vitamin C happens to be a substrate for eight different enzyme systems that are involved in various cellular functions. Among these functions are collagen synthesis, ATP synthesis in the mitochondria, and hormone biosynthesis. Its main antioxidant partners are vitamin E and beta carotene, both of which help to regenerate vitamin C.

Of all the antioxidants, it seems as if vitamin E offers the greatest protection against heart disease because of its ability to protect the cardiovascular system from oxidative damage. It is lipid-soluble, making it an important component of the cell membrane, where it works to protect the cell against lipid peroxidation and control oxidation-induced inflammatory events. Recently, the gamma tocopherol form of vitamin E has shown a great deal of promise in its ability to reduce the risk of several oxidative stress related disease.

Beta-carotene is a member of a diverse group of photosynthetic pigments. It plays a huge role in human nutrition. As an antioxidant, it possesses a double-bond structure that allows it to react effectively with single oxygen radicals, absorbing and diffusing their energy. Beta-carotene also acts as a precursor for vitamin A by supplying a portion of the body’s requirement for the vitamin. This act alone plays a central role in the chemistry of vision. Beta-carotene and vitamin A both prevent the oxidation of cholesterol, reduce oxidative damage to DNA, and disable oxygen free radicals that are produced by exposure to sunlight and air pollution. These antioxidants are also involved in the activation of gene expression and the control of cell differentiation.

When combined together, vitamin C, vitamin E, and beta-carotene produce and important antioxidant trio that plays a huge role in fighting oxidative and inflammatory events. There are several other antioxidants that should be noted due to their ability to work synergistically with the vitamin C, vitamin E, and beta-carotene trio. These include vitamin A, alpha-lipoic acid, lycopene, coenzyme Q10, and the antioxidant mineral, selenium. In order to determine whether a nutrient provides antioxidant support, scientists question whether the product contains vitamin C, vitamin E, vitamin A, beta-carotene, alpha-lipoic acid, lycopene, coenzyme Q10, and selenium and to what strength these vitamins and minerals are per serving.

(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=2160)

Date: May 07, 2009 05:45 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: L-Carnitine

L-carnitine is amino acid essential for the metabolism of fats into a form of energy necessary for extended aerobic activity. Originally discovered in Russia, and Germany a year later, the structural formulation of carnitine, as it is correctly known, was determined in 1927, although it is physiological and biochemical activity was not understood until the 1960s.

The amino acid is biosynthesized in the liver and kidneys from lysine and methionine. The vitamins niacin, B6, C and iron are essential for this reaction to take place. However, the supply of L-carnitine has to be supplemented by the diet, good sources being dairy products, red meat, nuts and seeds, pulses and fruits such as apricots, bananas and avocado. Most of the L-carnitine supply of the body is stored within the muscle tissue. However, it is not unusual for conditions to arise making it difficult for the body to obtain all the carnitine required.

L-carnitine enables fatty acids to be transported into the mitochondria, where cell metabolism occurs. The biochemistry is discussed below, although in simple terms the amino acid allows body fats, in the form of triglycerides, to be made more readily available for the generation of energy required for extended exertion. In this way, body fats can be used for energy and the supplies of glycogen stored by the liver can be retained for emergency use.

By providing the energy for endurance and stamina in this way, carnitine makes use of an otherwise unavailable energy source, and has the added benefit of reducing body fat stores and reducing strain on the heart.

Although there is generally a plentiful supply of L-carnitine available in a healthy diet, supplementation can ensure that a deficiency does not occur. Supplements are available in the form of L-carnitine or its acetylated derivative, acetyl L-carnitine.

In order for fatty acids to be used in the production of energy, their long-chain acetyl groups have to get inside the mitochondria where they are oxidized to the acetate to be used for the production of energy via the Citric Acid or Krebs cycle.

In order for the biochemistry to take place, fatty acids must be rendered suitable for binding to the carnitine molecule. The chemical grouping with a good affinity for L-carnitine is the acetyl or acetyl group, available in the molecule acetyl coenzyme A (CoA). The free fatty acid, therefore, is attached to coenzyme-A by means of a thioester bond, catalyzed by means of the enzyme fatty acetyl-CoA synthetase. The reaction is then completed by means of in organic pyrophosphatase.

In this way, the fatty acid in the form of an acetyL-carnitine derivative can be transported through the mitochondrial wall. This transportation takes place by means of several steps. These are:

1. As explained, the acetyl-CoA is attached to L-carnitine by means of the enzyme carnitine acetyltransferase I. This enzyme is conveniently located on the outer mitochondrial membrane.

2. The enzyme carnitine-acetylcarnitine translocase helps the acetyL-carnitine through the membrane.

3. Another enzyme, carnitine acetyltransferase II, located on the inner mitochondrial membrane, converts the acetyL-carnitine to acetyl-CoA, liberating the carnitine which returns to the muscle mass.

L-carnitine is the only known substance that allows fatty acids to cross the mitochondrial membrane, and therefore deficiencies must be avoided.

Another way in which carnitine is used in energy production is in the Krebs cycle itself. Part of this cycle involves the conversion of guanine diphosphate to the higher energy form guanine triphosphate. In this way energy can be stored in much the same way as it is in the conversion of ADP to ATP. Succinyl CoA is involved in this conversion, and one of the by-products of it is a corresponding succinate, that is then converted to a fumarate by the action of L-carnitine fumarate. Carnitine, therefore, has two parts to play in the production of long-term energy from the fatty acids contained in body fats.

Since the fatty acid triglycerides contained in body fats are a major source of energy in the heart and skeletal muscles, it is easy to understand how L-carnitine is believed to lead to the increased energy levels required for stamina and staying power. A major reason for its effect on longer-term or extended energy requirements is that in enabling stored body fats to be used for immediate and longer-term energy requirements, L-carnitine allows emergency glycogen stores to be retained for use once immediate fatty acid supplies or those of carnitine have been depleted, and so allows the energy supply to be extended even farther. Research has also suggested that the amino acid can possibly be used to treat liver and kidney disease, diabetes and chronic fatigue syndrome.

As with many supplements, the question is often asked how does L-carnitine work in practice as opposed to the claims made for it by the supplement providers? Recent research indicates mixed results, but sufficient to justify its use. It is generally accepted that a supplement is necessary when there is a deficiency, but once that deficiency has been corrected further intake is unnecessary. However, it is also believed that during long and extended periods of exercise a carnitine deficiency does occur as L-carnitine is used up, and the supplement is necessary to ensure sufficient energy supply throughout the period of exercise.

There has also been a case reported in the Journal of Clinical Neurology (Negoro, Tsuda, Kato & Morimatsu, 1995) where a deficiency, caused by anorexia nervosa damaging the liver to the extent that it was unable to synthesize L-carnitine, was remedied by means of an oral supplement. Studies on endurance athletes have been mixed, ranging from no effect to L-carnitine being found to promote weight loss.

Carnitine has no unknown harmful side effects, and has been studied for medical applications other than as an energy supplement. For example it possesses extensive antioxidant properties, and can be used as a supplement against oxidative stress and the prevention of the lipid peroxidation that is a precursor to atherosclerosis.

Its use in osteoporosis and reducing bone mass is also being studied. The concentration of L-carnitine diminishes with age, and affects fatty acid metabolism in a number of tissues. Bones are particularly affected since they require continuous reconstruction. Without detailing the biochemistry involved in this, administration of carnitine helps to reduce the speed by which this occurs. Trials are so far been carried out only on animals.

In studies on both healthy volunteers and patients with type II diabetes, L-carnitine was found to improve storage of glucose in both groups, although its oxidation increased only in the group with diabetes. Other studies carried out include improving the function of neurotransmitters in the brains of elderly patients and in the treatment of Alzheimer's and Parkinson's disease, and other neurological disorders.

In conclusion then, although the jury is out on the use of L-carnitine is an energy-giving or weight-loss supplement, it appears to be effective where the body's stores of carnitine could be depleted such as with long-term exercise, natural deficiencies or deficiencies caused through age. It is also under study in the treatment of various medical conditions. On balance, it would appear that the prospective benefits of L-carnitine render it worthy of use.

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Date: April 13, 2009 03:51 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Detoxify With L-Citrulline

L-citrulline is an alpha-amino acid, first isolated from the watermelon in 1930: hence the name, citrullis being Latin for that fruit, the skin of which is rich in the substance. It is used to enhance performance in sports, particularly through aiding recovery after exercise, and also helps the liver to detoxify the blood.

It is not an essential amino acid in that it is produced by the body and need not be part of your diet. It is a precursor to arginine, which involves the sustained release of nitric oxide in the endothelium that promotes increased flow of blood and the blood vessels as described further below. One of the biochemical pathways for its biosynthesis involves the urea cycle, whereby the toxic ammonia is detoxified into an easily excreted form through its conversion to urea.

The urea cycle consists of five reactions, and citrulline is formed in the second of these. In the first of these, ammonia reacts with bicarbonate to form carbamoyl phosphate, the phosphate coming from the two molecule of ATP used to energize the reaction. These are converted to adenosine diphosphate (ADP), and the carbamoyl phosphate then reacts with ornithine to form citrulline, which takes part in step three that eventually leads to the formation of urea.

The second way in which L-citrulline can be biosynthesized is from the oxidation of arginine, a natural amino acid. Arginine is oxidized into N-hydroxyarginine, and then into L-citrulline with the release of nitric oxide.

So that's how it is produced in the body, but how does it help sportsmen, and what part does it play in detoxification? Its effect on recovery after exercise is connected with blood flow. Energy is created in the mitochondria that are contained in every cell off the body. Among the raw materials needed for the production of energy are glucose and oxygen: glucose obtained from the carbohydrates in your diet, and oxygen transported by the hemoglobin or red blood cells.

Both of these rely on blood flow: greater the volume of blood transported to the cells then the greater the ability of these cells to produce energy. During periods of exercise, a good supply of blood is required to provide the raw materials needed for the energy demand of the muscles involved in the exercise. Not only that however, but recovery after exercise involves the replacement of electrolytes, the glycogen used in extensive aerobic and anaerobic exercise and protein replacement, particularly where catabolism has occurred.

In order to supply these raw materials at an adequate rate, it is necessary for the flow of blood to the appropriate muscles to be sufficient. A major restriction to increase blood flow is elasticity of the blood vessels and cells. Although a healthy heart is capable of providing the necessary quantities of blood, and hence of nutrients, any restriction to the flow could cause dangerously high blood pressure.

Nitric oxide plays a signaling role in enlarging blood vessels to allow an increased blood flow when it is needed by the body. It can provide more blood to the stomach during digestion and to the muscles during exercise and recovery.

During hard exercise, nitric oxide can act as a pump that provides blood during exercise and also during recovery. It can therefore provide more rapid gains in lean mass, increased endurance and faster muscle recovery. The way it does this is to send a signal to the smooth muscles to relax; smooth muscles such as those found in veins and arteries, so resulting in vasodilation therefore allowing increased blood flow.

It is the endothelium, the inner lining of blood vessels, which uses the nitric oxide to provide the relaxation signal to the smooth muscles surrounding it. In fact, it is the effect of nitric oxide that enables those living at high altitudes to develop increased stamina and speed over those at lower altitudes, and find more world records seem to be broken during athletics meetings, such as Olympic Games, held at high altitudes. This is because the production of nitric acid is increased at higher altitudes with slightly lower oxygen levels. This is the same effect that is used by vasodilators such as amyl nitrite and Viagra that work by increasing nitric oxide levels in the smooth muscle wall of the blood vessels.

It should not be surprising therefore, that L-citrulline should work in a similar way, since it is intimately involved in the production of nitric oxide. Although this is now generally understood, what part does supplemental citrulline play in the body if it is a non-essential amino acid?

Supplemental L-citrulline is useful in supporting the detoxification of ammonia in the liver when supplies of ornithine carbamoyl transferase is naturally in short supply. This is the enzyme that catalyzes the reaction between ornithine and carbamoyl phosphate to form citrulline. Supplements can then help in the removal of ammonia from the blood, and also provide material for the continued production of nitric oxide support muscular activity and its recovery after exercise.

Ammonia itself is a by-product of intensive exercise, and without the urea cycle the body would rapidly become polluted. It is a very toxic product, and causes the death of thousands of people each year. This is generally in people who suffer liver and kidney disease, and the ammonia can be broken down and excreted.

Your brain cells are particularly sensitive to ammonia, and as levels increase the effect progressively ranges from drowsiness thru tremors to coma and eventual death. Any condition, therefore, that reduces the body's capability of metabolizing ammonia is potentially very serious, and any supplement that can help prevent this is valuable.

L-citrulline is believed to help in such situations, although any condition affecting the efficiency of the kidneys or liver and that can cause toxicity due to ammonia or any other toxic substance, should be referred to your physician. It is for its effect in increasing blood flow to provide sufficient raw material, for both the energy needed for high levels of exercise and for muscle recovery, that citrulline is predominantly used as a supplement.

--
Detoxify At Vitanet ®, LLC

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Date: January 06, 2009 04:01 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: L-Arginine An Amino Acid Essential Or Not You Be The Judge?

L-Arginine is an amino acid that is one of 20 needed by the body for its existence. To some, it is not what is known as an essential amino acid, since it can be biosynthesized by the body, but arginine is termed a conditionally essential amino acid in that we must include some in our diet because our biochemistry does not produce all that our body needs, particularly during the growing years.

Amino acids are the building blocks of life, and are the units from which proteins and ultimately our DNA are built. In fact DNA contains the blueprints for every protein used by our bodies, including all the enzymes without which our biochemistry could not occur. When a supply of a particular protein is needed, the DNA template provides the sequence of amino acids needed to produce it.

Of the 20 amino acids we need, only 10 can be produced by our body: the other 10 must be included in our diet and are termed 'essential' because they are an essential part of our diet, just as vitamins and minerals are. Without an adequate supply of essential components, we cannot survive, and if the essential amino acids are depleted in our diet then the body will break down muscle tissue to release them.

Although L-arginine is termed a 'conditionally' essential amino acid, it is included by many among the 10 regarded as being essential. Hence, depending upon who you read, it can be either essential or non-essential. That is because, as inferred earlier, arginine is needed for growth and development, and there is insufficient in the diet to meet these needs. Therefore, while it is essential in cases where growth is still taking place, it is not in those where normal growth is complete.

Proteins are essential for all animal life, forming not only the enzymes, or biochemical catalysts, but also muscles and DNA among other bodily tissues. Protein is also a necessary part of our diet, and it is from protein, animal or vegetable, that we get the amino acids in our diet. L-arginine is one of these, being available from all meats and seafood’s, and vegetables rich in protein such as soy, seeds, nuts and grains.

So what does arginine do for us, quite a lot in fact, many of its functions being related to our health? Arginine plays an important role in the healing of wounds, especially bone, assisting the immune function, decreasing blood pressure and speeding up the repair time of tissue. However, it possesses other properties such as increasing muscle mass, helping to increase male fertility and improving the circulation.

It also helps to remove ammonia from the body, and is a precursor for the biosynthesis of nitric oxide (NO2). It is in the way that L-arginine works with the nitrogen stores of the body that we will focus on here, prior to touching on its other properties.

L-Arginine transports, stores and excretes nitrogen, and used biochemically to manufacture nitric oxide. This oxide of nitrogen plays a very important role in your body, and is produced in every cell of your body. Nitric oxide helps in the dilation of your blood vessels, allowing a reduction in blood pressure, better circulation and helping to prevent a mans man-hood dysfunction, all of which are due to its relaxing effect on smooth muscle contraction and the promotion of the increased blood flow necessary for men and their functions. It is also important to your immune system and nervous system.

It works in a similar way to the effect of nitroglycerine on the heart: this is converted in the body to nitric oxide which relaxes the blood vessels and so reduces the amount of work needed by the heart. The way in which L-arginine forms nitric oxide is by the action of the enzyme nitric oxide synthase.

The amino acid is also an important component of the Citric Acid or Kreb's cycle, where it reacts with ammonia which is a toxic by-product in the generation of energy in the mitochondria. Ammonia is converted to urea by L-arginine and excreted from the body. This is another way in which L-arginine is involved in the storage and use of nitrogen-containing compounds in your biochemistry.

It was mentioned earlier that arginine is an essential amino acid for children. Studies have indicated that it supports the release of the human growth hormone from the pituitary gland although the amount released through supplementation of the amino acid varies widely between individuals. The growth hormone maintains the production of proteins and muscle tissue in the body cells. This reduces as we age, and arginine becomes non-essential, the smaller amounts needed in our biochemistry being manufactured by the body.

The anabolic effect of the supplement is believed to increase the effectiveness of exercise intended to increase muscle bulk and reduce the percentage of body fat, and many take L-arginine as a supplement while undergoing such anabolic fitness and exercise programs. It is normally best to start with low supplement levels and work up due the potential side effects (diarrhea and nausea).

Arginine is an important component in the body's healing mechanisms for both tissue and bone, and studies have confirmed accelerated healing of wounds and fractures with arginine supplementation. Although the mechanism by which this occurs is not yet understood, there is evidence that it may be connected with the nitric oxide pathway and increased blood flow, and also with its effect on the immune system in reducing inflammation at the healing site.

Diabetics, however, should be careful with substances that promote the release of growth hormone, and children with incomplete bone growth should also use such agents only under medical supervision. With diabetics, their condition could be either exacerbated or improved, and those with herpes and some psychotic conditions should also be careful.

Nitrogenous compounds are essential to life, and L-arginine plays a significant role in the storage, use and secretion of them. Without it life would not be possible, although it is its visible uses, such as the effect of nitrous oxide on blood flow and of proteins on muscle metabolism, for which it is best known to those that use it, either as a supplement or as a remedy. Pure supplement form is available at your local or internet health food store.

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Date: January 05, 2009 04:31 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: L-Alanine Non Essential Amino Acid

L-Alanine is one of 20 amino acids that are used by the body to manufacture the proteins essential for life. Each protein possesses specific biological properties that are imparted by the sequence of amino acids it contains. Proteins control the chemistry that takes place within the cells of our body, and comprise all of the enzymes that catalyze the body's biochemistry.

Amino acids are also the building blocks of DNA that determines the genetic make-up of individuals, and that also provides recipes or templates for the production of proteins from amino acid sequences. There is a different DNA template for every protein required by the body that determines which of the 20 amino acids are needed, and in what order they are to be combined with one another to manufacture the desired protein.

10 of these 20 amino acids can be synthesized by your body's biochemistry, the other 10 being essential parts of your diet. If you fail to include just of these 10, then your body will break down its proteins until it has obtained a sufficient supply of that amino acids for its needs. That involves muscle and other tissue degradation, and is one of the symptoms of malnutrition. Amino acids are not stored, and a daily supply is essential to avoid these symptoms.

L-Alanine is one of the ten that the body can manufacture, and used by the body to help build protein and also to enable the body to make use of glucose to generate energy. It does so as part of what is known as the glucose-alanine cycle. During anaerobic exercise, such as in weightlifting and sustained running, muscles produce lactate and also alanine.

The alanine is passed on to the liver where it is converted to energy via its conversion to glucose. This is not a particularly efficient means of creating energy because a byproduct of the process is urea, the removal of which in turn requires energy. However, it serves its purpose as an energy source once the liver is depleted of glycogen. In fact that is the major use to which alanine appears to be put by the body: the conversion of glucose to energy.

The way the glucose-alanine cycle works is that a process known as transamination produces glutamate from the amino groups of amino acids that are degraded during exercise. Glutamate is then converted to pyruvate by means of the enzyme alanine aminotransferase, with the production of alanine and alpha-ketoglutarate. This is a reversible reaction, and after the alanine has been carried by the bloodstream to the liver, the reaction reverses with the regeneration of pyruvate that undergoes gluconeogenesis (generation of glucose).

The result of this is glucose that returns to the muscle tissue to provide more energy. The glutamate is broken down to the ammonium ion in the mitochondria, which in turn enters the urea cycle with the production of urea.

In a nutshell, then, the glucose-alanine cycle removes glutamate and pyruvate from muscle tissue to the liver where glucose is generated from the pyruvate and returned to the muscle. Since gluconeogenesis involves the expenditure of energy, and this occurs in the liver rather than in the muscle, all the energy in the muscle can be used for muscle contraction.

L-Alanine possesses other properties, among them the ability to help maintain the health of the prostate. A study of benign prostatic hyperplasia (enlarged prostate) indicated that treatment with L-alanine, glutamic acid and glycine over a period of three months reduced the symptoms. However, make sure that you consult your physician before using alanine in this way. This is not because there are any known adverse side effects, because there are not, but because it I always wise to so with any supplement taken with a view to treating any medical condition.

A less obvious application derives from the fact that it forms a stable free radical when deaminated. Deamination can be initiated by radiation, and so the concentration of this free radical can be measured to ensure that the correct dose of radiation is being given in dosimetric radiotherapy. It is not always easy to control the dose accurately, and this property of alanine allows it to monitored and to ensure that it is neither too low to have the desired effect, nor dangerously high.

Although it is a non-essential amino acid, and can be produced by the body, a dietary supply or supplement is advantageous if extra energy is required. Good dietary sources of L-alanine include meats, seafood, eggs, nuts, beans, seeds, brewer's yeast, corn and legumes among others. Supplements are also available, and useful for body-builders, weightlifters and others involved in anaerobic exercise. Due to the glucose-alanine cycle, it can possibly provide energy when lactate build-up would otherwise lead to muscle cramps.

Those for whom a supplement could be useful are athletes and others who are trying to build muscle and stamina, or reduce their body fat and also the obese and overweight for the same reason. There is also evidence that a combination of the amino acids alanine, glycine and arginine can help to reduce arterial plaque from oxidized low density lipoproteins, and can also help to reduce high blood pressure.

Deficiencies are rare, although groups that do not eat meat should be careful to eat foods with a good alanine content. There are no known side effects of a deficiency since the body will generate what is needed for normal purposes, and while the supplement appears to have no side effects, it is advisable that pregnant and lactating women should first seek medical advice. The same applies if you suffer from hypertension or diabetes. High doses of alanine might also affect those with kidney or liver disease.

Although the benefits of supplementation of L-alanine might not be immediately obvious, the results and the science indicate that it is effective in making better use of blood glucose in that the adenosine triphosphate (ATP) created in the muscle tissue is allowed to be expended on muscle contraction while the glucose-alanine cycle provides the energy needed for gluconeogenesis.

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Date: December 19, 2008 12:35 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Inosine

Inosine is a specific type of glycosylamine that consists of a base bound to a deoxyribose or ribose sugar. This type of glycosylamine is referred to as a nucleoside, others being adenosine, thymidine and cytidine.

It is available naturally in brewer’s yeast and major organ offal such as liver and kidney. It’s function in animal biochemistry is in the production of ATP (adenosine triphosphate), often known as the molecule of energy, that is essential for the generation of energy by the mitochondria in our body cells. It’s biochemistry is described below.

Inosine is synthesized as inosine monophosphate by means of a complex series of biochemical reactions. The inosine monophosphate is a precursor for adenine, a nucleotide and purine base that reacts with ribose to form adenosine. This is another nucleoside that can be phosphorylated to produce adenosine monophosphate (AMP), the diphosphate (ADP), the triphosphate (ATP) and cyclic adenosine monophosphate (cAMP).

Each of these is involved in the metabolism of energy in the mitochondria. Glucose undergoes a number of enzyme-catalyzed reactions in the presence of oxygen that ultimately breaks it down to water and carbon dioxide, plus at least 36 molecules of ATP via glycolysis and then the Krebs cycle. The ATP reacts with water to release energy and form ADP. The ADP can then be phosphorylated to produce more ATP. The starting point of all of this is inosine, and it is little wonder this nucleoside is used by athletes to help boost their energy.

Not only that, however, but adenine is also the precursor of amino and nucleic acids responsible for the generation of RNA and DNA, and it is also responsible for the production of many coenzymes. These provide other opportunities for its use elsewhere in medicine, and it has also been found to possess other medical properties that will be discussed later.

It was in the 1970s that inosine was first used to boost athletic performance due to its part in the generation of the energy needed by every muscle in the body. Its use began in eastern countries, although evidence at the time did not support the theory. Nevertheless, this did not deter its advocates, and inosine continued to be used by athletes, a practice that has now spread world-wide.

It has been found to be a metabolic activator, in that it supports metabolism through the generation of energy. Inosine has been used by power lifters for heavy weight training to increase the capacity of the blood to carry oxygen, and strength athletes, particularly of the Eastern Bloc, used it from the mid 1970s onwards.

Inosine appears to increase the natural ability of the body to handle strenuous workouts, although there is no scientific proof of this. However, those that use it claim an increased ability to carry out intensive training workouts and an improvement in their competitive performance. The nucleotide can penetrate the cell walls and get to where it is needed to take part in the metabolism of energy through the production of ATP.

Now, however, inosine has an entirley different application in medicine. Studies have shown that it could support those suffering from MS (multiple sclerosis) and strokes through its pereceived neuroprotective properties. It appears to promote axonal rewiring, where undamaged neurons appear to grow new connections with damaged areas of the brain, and undamaged neurons seem to branch out to replace some of the damaged neurons.

Inosine is also an intermediate in the production of uric acid through purine and purine nucleoside degradation. Uric acid is a powerful antioxidant, particularly in respect of peroxynitrite, a nucleophile that causes the type of axonal degradation that is associated with multiple sclerosis. It thefore helps in two ways: through the production of uric acid, and in promoting axonal rewiring that can improve brain function in patients.

Another potential medical use for the substance is based upon the discovery that inosine and related compounds can act as powerful anti-inflammatories through their effect on inflammatory macrophage proteins. Certain conditions can cause the release of these macrohages, and where it is an undesirable side-effect, inosine can be administered to prevent it occuring.

Inosine appears to inhibit the production of pro-inflammatory cytokines without inhibiting anti-inflammatory cytokines. It appears to do so extracellularly, although the effect can be reversed by the blockading of adenosine receptors. However, it is a convenient way of avoiding this sometimes serious condition, which is a natural function of the immune system, without affecting any other part of that system’s essential work.

It is not an essential nutrient, since it is synthesized biochemically, but a supplement of inosine is certainly worth taking if you want to increase your ability to carry out athetic exercise requiring a high energy output and increased blood oxygen availability. It also helps to reduce recovery time, and proponents of its use claim that it enables you to exercise at a higher level for longer.

Although the medical evidence for this is scant, not a lot of work has been done in trying to establish it, and those that use inosine in this way swear that it is effective. The theory certainly indicates that it should be effective in helping to produce more energy, and also that it should be able to make more oxygen available, and some athletes have been taking it for decades with excellent results.

There are no known side effects of its use, although pregnant women and nursing mothers are recommended not to use it, as with many other health supplements the pathology of which have not been closely studuied. As with any supplement, you are highly recommended to consult your own doctor or physician when taking any supplement, particular if you have a current medical condition or are taking prescriptive medicines.

If you are predisposed to gout, and some people are, the uric acid it produces can render inosine unsuitable. Uric acid reacts with calcium to produce the sodium urate that is deposited on the cartilage and tendons of the joints, particularly the big toe. It is a very painful condition, so those that have suffered gout in the past should not take inosine as a supplement.

Otherwise, its effect on your athletic performance might be academic!

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Date: December 10, 2008 10:48 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Hoodia Gordonii

Hoodia Gordonii is a South African succulent plant of the family Apocynaceae. They are remarkable similar in appearance to cacti, although they are totally unrelated to them and grow predominantly in the region of Central Namibia in the south west of Africa, up to the southern regions of Angola. They are most commonly found in rocky ground and on the plains.

There are several species of hoodia, some of them grown domestically, and it is Hoodia gordonii that is used as an appetite suppressant in hoodia weight loss pills. Although the plant has historically found use in the treatment of infections and gastric problems, most interest is displayed in its use by the bushmen of the Kalahari Desert to suppress their appetite during long hunting trips when food and water are scarce.

The active ingredient was isolated in 1977, and given the name P57: the product is therefore often referred to as Hoodia P57. It was patented by its discoverers, the CSIR (South African Council for Scientific and Industrial Research) and a license granted to UK company Phytopram, who worked together with Pfizer to isolate the active ingredients and manufacture them synthetically. This was found to be very difficult, if not impossible, since any synthetic form of the extract failed to display any hunger-suppressant properties.

Finally, the rights to the main ingredient were released by Pfizer in 2002, thus indicating that it was of no commercial benefit to them. The main problem they admitted with synthesizing P57 was not only the difficulty in doing so, but also that there were side effects of the extract on the liver caused by other components that could not be removed. No synthetic form of hoodia is therefore available, and only the natural plant is used in current Hoodia 57 preparations.

The rights of the San Bushmen to the plant were recognized by the CSIR in 2002, and not only do they receive a proportion of the profits of marketing hoodia, but also the plant is protected with wild-harvesting licenses provided to only certain individuals and companies. Due to the rising popularity of the hoodia weight loss industry, the plant has been named as an endangered species in the wild.

It is believed that the active ingredients are steroidal saponins that can fool the body into believing it is full. This theory is based upon the effect on appetite of glucose concentrations in the blood. Your appetite is controlled by the amount of unconverted glucose in your blood, and glycogen in the liver. When you eat carbohydrates, they are digested and converted into glucose which is absorbed into the bloodstream.

Under normal conditions your blood glucose levels increase to a level where a signal from hypothalamus stops you feeling hungry. Insulin is then secreted from the pancreas to prepare your cells to use that glucose in the mitochondria to create energy by means of the Kreb's Cycle, or Citric Acid Cycle as it is also known. This reduces the concentration of glucose in the blood, and once it reaches a certain level the body begins to use its emergency energy supply, glycogen, that is stored in the liver.

A signal then informs the brain that more glucose is needed. You then feel hungry again, and this cycle is repeated several times a day in a normally healthy person. This cycle is controlled by certain hormones in the brain, specifically in the ventromedial center of the hypothalamus, where it is believed that the ATP (adenosine triphosphate) availability controls the release of the hormones involved.

ATP is the molecule of energy, and as the concentration of blood glucose and of glycogen drop, then the amount of ATP produced also drops and this is detected in the hypothalamus, which reacts by releasing ghrelin. Increased leptin increases the feeling of satiety and ghrelin increases the feeling of hunger. Serotonin acts on the brain to increase the effect of leptin in the hypothalamus, and therefore make us feel less hungry, or more satiated.

It is believed that hoodia gordonii, or the Hoodia P57 component of it, fools the brain into believing that your blood glucose or glycogen levels have reached the point at which it should trigger a satiated response, so that you stop eating even though your ATP levels might be low. The steroidal saponins that it contains is believed to be ten thousand times more effective than glucose in stimulated the secretion of serotonin.

Hoodia has also been found to contain a number of glycosides, including pregnane glycosides that some studies have indicated to help control appetite of the subjects tested. Most of these tests have been carried out on animals, although Hoodia weight loss preparations are offered in a form standardized on both steroidal saponins and pregnane glycosides.

Hoodia gordonii is becoming so popular as a weight loss product that its export is being monitored by the South African government. It has become so endangered that, since 2005, only hoodia grown on commercial farms is permitted an export license, and exporters must obtain a license from the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES). Importers also require a permit from the US department of Agriculture, and a CITES certificate is also needed to re-export the finished product.

Because of this, more hoodia weight loss pills are being sold than there is hoodia gordonii to produce them. It is not uncommon for cacti such as the prickly pear cactus from Mexico, to be used, or for low concentrations of hoodia to be bulked up with fillers. Neither of these is of any use as an appetite suppressant, the former having no active ingredients whatsoever and the latter containing only traces.

If you are purchasing hoodia, therefore, be aware of this. Request sight of the CITES certificate and USDA permit, and also the analysis results by an authorized laboratory to confirm that the product is what it purports to be. Otherwise, there is some evidence that Hoodia gordonii can help you reduce weight, although to date there are only four recognized analytical laboratories registered to analyze the active content of hoodia weight loss products.

Finally, check for the analysis certificates. All Hoodia weight loss products should be analyzed by each of three methods: Microscopy, High Performance Thin Layer Chromatography (HPTLC) and High Performance Liquid Chromatography (HPLC) - all there are needed. The four authorized laboratories are: the University of Mississippi, Chromadex labs in Irvine California, Alkemist Pharmaceuticals and Advanced Laboratories, Smithfield, NC.

No others will do, so if your Hoodia weight loss preparation has not been analyzed using the three methods by one of these laboratories, don't buy it, even if it can show the CITES and USDA documentation.

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Date: October 22, 2008 04:59 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Green Coffee Bean Extract

It is known that aging is largely a result of the effect of free radicals on our body cells, and that green coffee bean extract can be used to fight against these. While we intuitively understand what the term ‘aging’ means, very few people can actually describe it in words, although there are several theories of why it occurs.

The most viable of these include the Error Catastrophe Theory, related to faulty molecular transcription and errors in cellular function, the Crosslinkage Theory, in which progressively increasing cross-linking between proteins slows the body functions down, and the Neuroendocrine Theory, in which changes in homeostasis and hormone levels occur through time due to an increasing loss of sensitivity of receptors to feedback inhibition.

However, by far the most acceptable and best understood theory is the Free Radical Theory of Aging, which green coffee beans have been found to help fight, and it is on that which we shall focus here.

The Free Radical Theory of Aging

Free radicals are oxidants created by unpaired electrons. Electrons generally go around in pairs, but occasionally molecules lose one of these electrons, creating a situation where it possesses an unpaired electron. In this condition, that molecule has only one purpose in life and that is to oxidize other molecules by stealing an electron from them.

Oxidation can cause untold damage to cell membranes, and also to other molecules that are vital to life, such as DNA. The end result is aging, and the onset of many diseases and conditions connected with aging. Free radicals are believed to be behind inflammatory diseases such as arthritis and Crohn’s disease, strokes, cardiovascular disease, Parkinson’s disease, Alzheimer’s disease and cancer among many others. Each of these is associated with aging.

Free radicals are generated in the body in four different ways:

1. Energy is generated by the intercellular mitochondria by the production of ATP (adenosine triphosphate). By-products of the mechanism by which this is done include hydrogen peroxide, the superoxide anion, and a hydroxyl radical. Over 20 billion molecules of antioxidant are produced in each individual cell daily, and every one of these has the capability to do damage to your body. The figure for inefficient cell metabolism is significantly higher.

2. Peroxisomes are eukaryotic cell components that contain oxidative enzymes, whose function is to produce hydrogen peroxide that is then used by another enzyme, catalase, to oxidize other toxic substances. It is used by the liver, for example, to oxidize about a quarter of all the alcohol we drink to acetaldehyde, and also to remove other toxins from the body. The down side is that the hydrogen peroxide can escape and degrade the cell membranes.

3. Chronic infections give rise to a high activity of white blood cells, which utilize oxidants of various kinds to destroy viruses, bacteria and parasites. These include hydrogen peroxide, superoxide and nitric oxide which can also destroy the cells they are protecting.

4. Cytochrome P450 is an enzyme used to clear the body of toxic chemicals in our food such as pesticides and drugs. They also give rise to oxidative by-products.

In addition to these, free radicals are also produced by air pollution consisting of smoking, factory emissions and traffic fumes. Trace metals such as lead, iron and copper, are rich free radical sources, as is the ultraviolet component of sunlight, and caffeine, from tea and coffee, can also contribute to the store of free radicals in your body.

So where does green coffee extract come into this, and how should it be used. Free radicals tend to react very rapidly to accelerate aging, and in order to counter them, and hold the effects of aging at bay, it is necessary to destroy them almost as quickly as they are produced. This is carried out by antioxidants, of which there must be a plentiful supply available in each body cell.

Antioxidants donate electrons to free radicals, and so effectively neutralize them before they can attack the membranes of the cells in your body, or any of the other tissues that they can degrade. Many of the vitamins have a powerful antioxidant effect, among them vitamins A, C and E. Other antioxidants available in our diet include beta carotene and other carotenoids, flavonoids and glutathione, and also cofactors such as lipoic acid. All of these can destroy free radicals by the donation of an electron.

Green coffee beans have also been found to possess a strong antioxidant effect, due largely to the plant phenols, such as caffeic acid that forms chlorogenic acid with quinic acid, both cholorgenic and caffeic acid being string antioxidants. Green coffee bean extract is standardized to 99% chlorogenic acid. This substances not only reacts rapidly with free oxygen radicals but also helps to prevent to formation of hydroxyl radicals.

It has been established that green coffee bean reacts twice as fast as green tea or grape seed extracts, and speed of reaction is critical in the destruction of free radicals that have to be destroyed before they do damage. Other antioxidants found in extracts of green coffee beans include heterocyclic compounds such as pyrroles, furans and maltol.

The extract is made from beans of Coffea Arabica, this containing higher concentrations of chlorogenic and caffeic acids than the Arabica plant. The extract is also produced to be naturally low in caffeine, thus avoiding the negative effects of drinking coffee for its stimulating properties. When the green coffee bean is roasted, the antioxidant effect is found to decrease, and after roasting and brewing both the Arabica and the Robusta beans have reduced in activity to much the same level.

Studies on some of the conditions exacerbated by free radicals have indicated the effectiveness of green coffee beans as an antioxidant. It is believed to help reduce atherosclerosis caused by the oxidation of low density lipids (LDL). Oxidized LDLs tend to be easily absorbed by phagocytes to form plaques and foam cells in artery walls, thus narrowing and hardening the arteries, causing a deprivation of oxygen and nutrients to the heart and also increased blood pressure. Antioxidants from the green coffee bean prevent this from happening, and so help to reduce this serious effect of aging.

A good supply of antioxidants will also prevent the cell membranes from being destroyed, one effect of which is to age the skin. Antioxidants in the form of green coffee bean extract can help to maintain a youthful appearance while also aiding in the prevention of the more serious effects of free radicals that can shorten life.

There are no doubts that free radicals contribute significantly to accelerated aging, and that the antioxidants contained in green coffee beans can help hold back the physical signs of aging, while also helping to destroy those free radicals that threaten life by promoting cancer, atherosclerosis, and other similar conditions.

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Date: October 11, 2008 10:26 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Glycine

The non-essential amino acid glycine is needed to generate muscle tissue and also for the conversion of blood glucose into energy. It is referred to as being ‘non-essential’ because the body can manufacture its own glycine, and is therefore not an essential component of your diet. Other uses to which glycine is put by the body includes the maintenance of a healthy nervous system, and is necessary for the proper functioning of the digestive system.

Amino acids play three essential roles in the human body:

1. They are the building blocks of proteins: proteins comprise about half of the dry weight of the majority of your body cells, and without them there would be no life. They are produced using monomers known as amino acids, and there are about 20 different amino acids used to make the vast variety of proteins that make up the human body. Proteins are needed to form enzymes, the catalysts that permit the majority of chemical reactions within our bodies, and also genes, the building blocks of DNA.

2. More relevant here, amino acids play an important role in the production of ATP (adenosine triphosphate) from ADP (adenosine diphosphate) by phosphorylation with creatine phosphate. The more creatine phosphate available, the more ATP can be produced. Since ATP is the molecule responsible for the generation of energy, then the more ATP available the more energy is generated. Although creatine is available from many food sources, it is destroyed by cooking, and over half of what you use is made from the three amino acids, glycine, arginine and methionine. The energy produced in this way is very short-lived, and last only a few seconds - more on that later.

3. Glycine is heavily involved in the production of collagen, which is the substance that maintains the flexibility of your skin and other connective tissues while still maintaining their strength and firmness. Without glycine your skin would become slack due to the degrading effect of sunlight, free radicals and oxidation.

The non essential amino acid, glycine, is believed to offer other benefits to the human body, but it is the second of those above, the production of ATP, which interests us here. ATP is an extremely important nanomolecule, second in importance to the body only to DNA, and possibly also RNA since the two are linked. RNA makes copies of your DNA structure for use in cell division and growth.

When a cell expends energy for whatever reason, such as when I am typing this, or when your heart beats, or even when your liver synthesizes a protein, one of the phosphate groups is removed from the adenosine triphosphate molecule, and converts it to adenosine diphosphate (ADP). The ATP is then said to be 'spent', just as your energy is spent when you are tired and can exercise no more.

The ADP is then immediately reconverted to ATP in the mitochondria, a part of every cell in your body. A cell can contain hundreds, or even thousands, of mitochondria, the number depending upon that particular cell's need for energy. Hence, cells in your muscles, or in your liver where most of the body's chemistry takes place, contain thousands of mitochondria whereas those in your scalp contain a lot less. Once changed to ATP, a phosphate is again lost when energy is expended, and so the cycle continues.

Glucose is needed allow the ADP to be converted to ATP, hence the need for sugars, or the carbohydrates from which they are manufactured in your body. Each cell can contain up to a billion molecules of ATP, although the couch potatoes among you probably have a lot less! Your store of ATP molecules last about 2 to 5 seconds before being changed to ADP although more rapidly for athletes that expend a lot of energy. Then the energy stored in the form of glycogen in the liver kicks in for another 4 - 6 seconds.

Additionally, you cannot expend more energy that the (eventual) sugars that you take in your diet, which can be in the form of ordinary 'sugar' (sucrose), fruit (fructose), glucose, carbohydrates that are metabolized into sugars, or any other member of the sugar family (e.g. lactose, maltose, etc.).

Glycine is one of what are called glucogenic amino acids, which refers to their ability to provide glucose to the blood. Because it helps to maintain proper blood glucose levels, it is often prescribed for conditions that are caused by low glucose levels, such as hypoglycemia that shows symptoms of fatigue and tiredness, and also anemia and what is known as CFS (chronic fatigue syndrome).

The one activity of the human body, in fact that of any mammal, for which ATP is essential, is the heartbeat. Without that no mammal could survive, or any other creature that relies on a circulation system for life. The only reason you heart has to beat is to pump your blood around your body, and it is your blood that contains the oxygen and nutrients needed to sustain life. Your cardiovascular health relies on lots of ATP being available to power each and every heartbeat.

Analysis of the heart during the final stages of heart failure has revealed that there is a general decrease in the myocardial arginine: glycine amidinotraferase (AGAT) gene expression, which is indicative of the necessity of this enzyme for proper heart function. The enzyme is responsible for the first stage in the biosynthesis of creatine from glycine.

Creatine is well known to athletes, and while it is available naturally from some food sources, it can be destroyed during cooking, and at least 50% of the creatine needed by the body is produced in the liver, pancreas and kidneys. It is creatine phosphate that is broken down into creatine and phosphate, the latter of which is used by the mitochondria to regenerate ATP from ADP.

The study carried out on the reduced AGAT levels found in heart failure patients indicates the importance of glycine to heart health. Without a good supply of glycine, there will insufficient creatine produced biochemically to generate the phosphate needed to for the ATP to produce the energy required to keep the heart pumping with the required strength. The energy provided by the mitochondria is used locally by the cells in which it is produced, and within a few seconds of that production. As explained earlier, ATP stores are used up within 2 - 5 seconds, and glycogen stores within another 4 - 6 seconds.

That is why sprinters cannot keep running at maximum speed for more than around 10 seconds or so, because the immediate availability of glycine, and hence creatine, are insufficient to last longer than that. That is one reason why they have to finish those 100 meters as fast as possible, because otherwise they would run out of energy. Other than trying to win, of course!

However, when it comes to the heart, ATP stores are essential, and the cells in your heart require a constant supply of ATP from creatine, which itself depends upon your intake or biosynthesis of glycine. Since dietary sources are insufficient to meet all your needs, and destroyed by cooking, a glycine supplement is the only way to ensure a sufficient intake. You cannot undernourish your heart and remain healthy.

ATP biosynthesis is essential if that of glycine theoretically is not, but the fact that 50% of your glycine requirement has to be produced by your body and the other 50% is sensitive to heat during cooking, a supplement of glycine could be essential to many people.



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Date: October 01, 2008 12:10 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Control Blood Sugar Naturally

Diabetes is an inflammatory condition caused by the autoimmune system, and manifests as resting hyperglycemia. Your blood glucose levels have to be maintained within fine concentration limits: both too high and too low a blood glucose concentration can be dangerous to your well being.

Your blood glucose level is generally controlled by insulin and glucagons, both of which are biosynthesized in the pancreas. Insulin works by making the glucose bioavailable to the mitochondria to convert into energy, while glucagon, the lesser known of this twosome, stabilizes the level of insulin and mobilizes it to do its job. There are two types of diabetes, known as Type I and Type II or A and B.

Type I diabetes, also known as juvenile onset diabetes, is an autoimmune condition in which the immune system destroys Beta cells because they are recognized as being foreign. It is the Beta cells that generate insulin, and so the condition can be fatal. Patients with Type I diabetes must take insulin throughout their lives, and while potential cures are currently under investigation, none are yet available. Although insulin can be effective it does not guarantee survival, and a better form of treatment is required.

Type II diabetes is by far the more common of the two, and is a form of resistance to insulin, where the body cells cannot use insulin properly. The pancreas initially reacts to this by producing more insulin in response to the increased blood glucose level, but through time it loses its ability to produce insulin as a reaction to an increase in blood sugar, even though this occurs as a result of digesting a meal.

The exact causes of either type of diabetes are not known for sure, although the general mechanism by which they work is known. However, Type II diabetes is believed to be due to some form of interaction between genetics and environment, and it is known that the majority of Type II sufferers are obese and also over 40.

The treatment for this type of diabetes is rarely insulin, but a controlled diet, control of your cholesterol level and blood pressure, exercise and specific medicines designed for sufferers of this form of diabetes. However, there are also natural supplements that can be used to control your blood sugar levels. Diabetes was the sixth leading cause of death of the USA in 1999, with 450,000 deaths, and by 2005 had reached about 300 million sufferers world wide. It is therefore a serious and widespread condition, though Type II is less serious than Type I.

It is important to do what you can to control your diabetes, since after several years it can lead to problems with your nerves, eyes, kidneys and gums, and can also lead to heart disease. With diabetes you are at least twice as likely to have a stroke or heart problem as those without it, although you can reduce the risk of this by keeping your blood pressure under control, and the levels of fats in your blood to a minimum. Stopping smoking helps, and there are some natural treatments that can also help you control your diabetes.

The most important means of control is to reduce your blood sugar levels. While there are natural products that will help you to do that, do not stop taking the medication prescribed by your doctor, but use these in addition to what you are already taking. Among specific substances that can help are:

Chromium: chromium helps your body to use insulin properly. When taken in the form of chromium picolinate, it helps to replace chromium that diabetics appear to be short of. Human studies have indicated that chromium can decrease insulin levels and improve the metabolism of blood sugar in those with Type II diabetes. Some claim that chromium is harmful to health, but the general opinion is that it helps, though you should consult your doctor before using it.

Cinnamon: If you take cinnamon daily, your blood sugar levels should gradually decrease. It appears to enable your cells to make better use of the insulin your blood, although there still discussion as to the mechanism by which this occurs and of the active ingredient in cinnamon that promotes it. Some claim it to be a flavonoid known as methylhydroxychalcone polymer, or MHCP. However, others claim it not to be MHCP, but polyphenol type-A polymer. Whichever it is, many people are finding cinnamon to be effective in reducing high levels of blood sugar to a more manageable level.

Milk Thistle: It is known that antioxidants can help to control blood sugar, and the flavolignins in Silymarin marianum, an herbal extract available from milk thistle seeds, work in this manner. It is also good for protecting the liver from toxins. Although it is not clear how it is done, silymarin appears to help to control Type II diabetes possibly by way of liver digestion of sugars in the blood. The liver processed glucose and improving its function through the consumption of milk thistle could help reduce blood sugar as well. Mulberry: The Chinese make what is known as “sugar control herbal tea” from mulberry leaves, green tea and jasmine. Mulberry leaves contain adenine, pectin and choline, and also high levels of Vitamins A and B types. This tea is used by the Chinese to control blood sugar levels, which might occur through the antioxidant effect of the mulberry constituents.

Salacia oblonga: This is an herb used in India and Sri Lanka that appears to cause a dramatic drop in the levels of insulin and sugar in the blood. It binds to enzymes in the intestine that break carbohydrates down into sugars, and so reduces the amount of sugar in your blood. That in turn reduces the amount of insulin released by the pancreas.

Apple Cider Vinegar: There is evidence that apple cider vinegar can help to control your blood sugar levels if taken before a meal. Just two tablespoons appears sufficient to give a noticeable result. This is one of those home remedies that might be just anecdotal, but might also work, so is worth trying.

Zinc: It has been discovered that diabetics suffer a deficiency in zinc. This mineral plays a part in the storage and production of insulin in your body, and a deficiency could cause an increase in your sugar level. Oysters, pecans, almonds, lamb and chicken are all good sources of zinc.

Glyconutrient complexes: we know that diabetes is an autoimmune disease for type I individuals. Supporting a properly function immune system requires a good diet as well as a diet rich in Glyconutrients. The polysaccharides found in glyconutrient formulas can help the immune system communicate better with the body and just possibly correct some autoimmune diseases which attach our cells.

These are the natural supplements that people are taking to help control their blood sugar and diabetes. It is important that you take nothing that interferes with the medicines given to you by your physician, so you should let your doctor know of any natural supplement that you are using in addition to your prescription medicines. However, it is possible to control your blood sugar with natural supplements, and those mentioned above are just a few of the natural substances available that can help diabetics control their condition and so avoid the side effects.

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Date: August 29, 2008 09:20 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Gamma Oryzanol

Gamma Oryzanol is extracted from rice bran oil, and is a mixture of substances that includes ferulic acid and sterols. It is not restricted to rice barn oil, and is also found in the bran of other grains, and some fruits and vegetables. It is commonly used as a sports supplement, although possesses other uses including treatment of menopausal symptoms and high cholesterol levels.

Athletes use gamma oryzanol to increase their muscle bulk through it increasing the levels of testosterone and other anabolic hormones. Although there is little scientific evidence for these effects, bodybuilders claim excellent results and the other benefits that the substance offers make it worthwhile taking. The reported benefits are so common and widespread that they are difficult to ignore, and it can be assumed that, in the absence of scientific evidence through test results, the athletes and bodybuilders are right until proven wrong.

Gamma oryzanol is reported to promote a number of metabolic effects on the body such stimulation of the Human Growth Hormone that is involved in increasing muscle bulk. It also induces increased release of endorphins, and improves recovery after exercise. Ferulic acid promotes increased strength, reduced fatigue and improved recovery.

The catabolic effect of cortisol is also reduced. Cortisol is produced during exercise and it is destructive to muscle tissue. What this does in practice is to increase your recovery time, and after a long run it can take two days to recover and allow your exercise effectively again. It is important that your body is conditioned to rapidly reduce its cortisol content after exercise, and ferulic acid helps you to do this.

Athletes have reported no side effects from doses of up to 900 mg of gamma oryzanol and 60 mg ferulic acid, which appears to be up to thirty times as bioavailable to the human body as gamma oryzanol. However, there are many more uses of the supplement than just metabolic ones.

Gamma oryzanol possesses strong antioxidant properties. Ferulic acid is a phenolic phytochemical, and a derivative of trans-cinnamic acid. As such, it is an antioxidant with strong reducing properties towards free radicals. Free radicals are implicated in cardiac problems cause by the oxidation of LDL cholesterol, leading to atherosclerosis that is responsible for strokes and blockages of the cardiac arteries.

Lipid peroxides can be formed by the oxidization of fats, and can damage nerve cells and muscle tissue. Antioxidants can also lead to premature aging through the destruction of human body cells, damage to DNA and also many forms of cancer. Although it is believed that components of gamma oryzanol can inhibit the initiation of some cancers, the evidence is still scanty and the research in its infancy.

Any substance that destroys free radicals is of benefit to your health, and Ferulic acid stands beside other strong antioxidants such as Vitamins A, D and E, and many of the high colored phytochemicals such as beta carotene. It is believed to have anti-cancer properties with some forms of cancer, such as breast and liver cancer, though, as referred to above, studies are continuing.

Paradoxically, intensive physical exercise can lead to the generation of more free radicals, since they are a by-product of the generation of energy in the mitochondria from blood glucose, and so, in addition to its beneficial metabolic and anti-catabolic properties, gamma oryzanol should be taken during exercise in order to reduce the effect of these dangerous molecules.

The effect of gamma oryzanol on cholesterol levels has been demonstrated, and complement the same effect offered by the fatty acid component of the bran oil. It appears to prevent the absorption of cholesterol by the digestive tract, and so allow it to be excreted naturally before doing any harm. It is believed that the phytosterols present in rice bran oil block the cholesterol absorption sites in the intestine, so is must continue down the intestinal canal until it is evacuated.

Cholesterol itself is essential to human metabolism and biochemistry, and without it we could not survive. Cholesterol is not soluble in water, and it has to be bound to low density lipids (LDL) to enable it to be transported round the blood to where it is needed: usually in the arteries to heal up arterial damage, a bit like a sticking plaster.

However, free radicals oxidize these LDLs and deposit them along with their cholesterol on the artery walls: that is the problem, not the cholesterol itself, and is why antioxidants such as gamma oryzanol are so important to us. Rice bran oil has been used by the Japanese for many years to treat elevated cholesterol levels and also to reduce high triglyceride levels.

It also acts as an anti-inflammatory, specifically in the stomach and can be used to treat gastritis, in that it reduces the inflammation of the stomach lining. There is some evidence from studies on animals that the substance could be effective in treating gastric ulcers, although the results with animals have not yet been tried on human subjects. Another mechanism, other than the anti-inflammatory route, is through the normalization of the secretion of the gastric juices.

Another use to which gamma oryzanol has been successful put is in the treatment of menopause symptoms. This is another of those situations where some trials have proved unsuccessful, but those that use it has found it be effective. Hot flashes and aging syndromes are two symptoms that have been effectively treated by use of the supplement, with one study reporting a 50% reduction in symptoms in 70% of patients.

The way this is theorized to work is through the inhibition of the secretion of leutinizing hormone by the pituitary gland, which promotes the hypothalamus to release endorphins. Endorphins help to overcome the effects of the menopause.

Gamma oryzanol, then, has found use by many athletes and bodybuilders in its metabolic properties in helping to increase muscle bulk and reduce fat, and by shortening recovery times by reducing the catabolic effect of cortisol. However, apart from these sports-related benefits, it possess antioxidant and anti-inflammatory properties that are beneficial to your general health.

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Date: August 28, 2008 09:33 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Garcinia Cambogia

Garcinia Cambogia is found naturally in India and parts of Asia, and also on the Pacific coast of South and Central America all the way from Peru up to Mexico, and likes a humid forested environment. Also known as Brindall berries, garcinia is believed to act as an appetite suppressant and allows you to lose weight by diminishing your desire for food.

The Malabar tamarind, as it is also known, is about the size of an orange resembling a small pumpkin, and an extract from the fruit and rind is used in several weight loss products. The health risks presented by synthetic diet pills render a natural product extremely attractive were it to be effective. So can Garcia curb your appetite? What is the scientific evidence for it, and what biochemical route would it take?

Although tests on animals have been very positive, human results have been inconsistent. In some double blind tests using a placebo, weight loss was up to three times that of the control, but in others there was no apparent difference between those taking garcinia, and those given a placebo. However, doubts have been raised of the validity of some of the negative tests, so what does science tell us?

The active ingredient in the cambogia extract is hydroxycitric acid (HCA), which is a powerful inhibitor of ATP citrate lyase, an enzyme that catalyzes the reaction between citrate and Coenzyme A to Acetyl CoA and oxaloacetate. Since the acetyl CoA is necessary in the synthesis of fatty acids and lipogenesis (the conversion of glucose to fatty acids), then anything that inhibits the biosynthesis of acetyl CoA must help to reduce the amount of fat stored in your body.

By inhibiting this reaction, that occurs outside the mitochondria so is not a direct part of the Citric Acid Cycle, HCA should theoretically suppress the formation of fats from carbohydrates, reduce food intake and thereby induce weight loss. But that is not the only mechanism.

A study at Georgetown University in Washington found that after 8 weeks of taking the garcinia extract, there was a 5.4% reduction in body weight and body mass index, and a significant reduction in low density lipoproteins (LDL) and triglycerides with an associated rise in high density lipoproteins (HDL). This is good news for those suffering from high cholesterol levels, since the LDL lipoproteins are those that carry cholesterol to the major blood vessels, and which when oxidized by free radicals deposit fatty plaques on the artery walls. These plaques constrict the arteries and the resultant atherosclerosis can lead to cardiac problems and strokes. HDL lipoproteins carry cholesterol back to the liver for destruction, and is known popularly as ‘good cholesterol’.

The studies also indicated modifications to certain indicators of the status of fat deposits in the body and of appetite modifiers in the brain. In this respect they found 38% decreases in serum leptin and increases in serotonin levels of 44%, and the excretion of fat metabolites in the urine increased from between 32% and 104%.

These are significant findings, and further research has indicated that HCA helps to suppress appetite. Serum leptin is an indicator of the level of fat stores in the body, and as the leptin levels in the blood reduces, the hypothalamus is given an instruction to increase the appetite so as to increase the fat levels again. However, it is believed that HCA possesses leptin-like properties, and this signal is either not generated or is modulated.

The increase in serotonin has the same effect. It is known that serotonin controls the appetite, although the exact mechanism has not yet been established. What is known is that serotonin activates certain neurons and melanocortin-4 receptors (MC4R) in the brain, that not only curb appetite but also block the effect of other neurons that would normally increase appetite by blocking the effect of MC4Rs.

This is how the banned anti-obesity and serotonin inciting drug Fen-Phen operated, and it appears that the hydroxycitric acid in garcinia cambogia extract acts in a similar, but safer, way. The problem with drugs such as Feb-Phen was that they created cardiac problems which could be dangerous to obese people whose hearts might have been weakened.

However, now that the biological pathway by which serotonin controls weight is believed to be known, if not fully understood, the way is becoming clearer as to how safer weight loss pills, acting through appetite suppression, might be developed. It also provides a valid scientific explanation for the effect of garcinia cambogia extract which might in itself prove to be that safer way.

The biochemistry supports the evidence of its effect on those wanting to lose weight, and also bolsters the claims that those tests and trials found to be negative were in some way flawed. Until the full chemical pathway is understood, the factors that can lead to flawed tests are unknown, although one could be the use of excessive fiber in some trials that could reduce the effect of the extract.

One of the effects of HCA is to limit the ability of your body to convert carbohydrates into fat (the Acetyl CoA inhibition mentioned above). That, combined with suppression of your appetite and a higher rate of thermogenesis, prevents the body from storing excess carbohydrates as fat. Instead you will have increased energy levels, so you should exercise to use this up while taking garcinia extract. For this reason it is popular with athletes and bodybuilders seeking an energy source that has not yet been banned from sport.

Although diet pills based on the same principle had side-effects and could make the user feel on edge, there are none known with garcinia. However, it is possible to reduce the absorption of some essential nutrients due to appetite suppression, so do not exceed the recommended dose. An excessive amount can also led to gastric discomfort, but none of these effects have been noted when the recommended doses have been adhered to.

However, if you are diabetic, pregnant or a nursing mother, you should consult with your physician or health professional before taking the extract. Garcinia Cambogia presents no specific risk to such people, and this warning should be given for all non-prescriptive treatments that your physician might be unaware of you taking.

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Date: August 18, 2008 12:01 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Coconut Oil

Whether coconut oil is good for weight loss or not, it is becoming an increasingly popular component of a weight loss diet. So how justified is this in view the fact that fats and oils are not normally regarded as being the best form of food to take if you want to lose weight?

Apart from any other considerations, fats are actually very important components of any diet. Consider, for example, how many vitamins are fat soluble: vitamins A, D, E and K are all fat soluble, and without fats in your diet vitamins would not be able to circulate and be taken to where they do most good. Fats are also essential building blocks for hormones and cell membranes. In short, you cannot survive without fats. Coconut oil is a fat.

In referring to coconut oil here, we are discussing virgin oil, not the refined form that is high in cholesterol. Refined, or processed coconut oils, is hydrogenated, which renders it more in nature to the longer chain fatty acids. Virgin coconut oil contains what are known as medium chain fatty acids (MCFA), which are easily metabolized by your liver into energy.

The longer chain fatty acids, also called triglycerides, are not easily broken down into smaller components, and tend to be stored in the body as fat. This fat can be particularly dangerous if stored round the midriff, and so long chain fatty acids are dangerous to your health. This does not apply to MCFAs, and a possible mechanism for this is discussed later.

An inability to distinguish between the different types of fats and oils in your diet is largely due to a lack of education in the chemistry of fats, and the lumping together of all fats and oils under the 'fatty' flag. Perhaps it is the use of the word 'fat' for the overweight condition and the fact that the triglycerides and other chemicals are known generically as 'fats' that triggers a connection between the two, but although this is logical, and in some cases justified, it is not always the case. There are fats and fats, just as there are lubricating oils and greases, and edible cooking oils and greases.

The fatty acids in coconut oil are composed of relative small carbon chain lengths. Caprylic acid and capric acid contain 8 and 10 carbon atoms in the backbone compared to the 18 of the stearic acid that is commonly contained in animal fats. The longer the carbon chain in the molecule, the more difficult it is to break down, and the more likely it is to be stored in the body as a dense fatty deposit that places a strain on the heart.

Due to the shorter chain length the medium chain fatty acids hold less energy per unit weight. Apart from any other reasons then, coconut oil contains fewer calories than other fats and so if used as the bulk of your fat requirement, will be less liable to generate body fat. Not only that, but as inferred earlier, due to the smaller molecule these calories are more readily released as energy for use by your body rather than stored unused.

However, that is not the whole story on either count: coconut contains saturated fats, and also monounsaturated and polyunsaturated fats, although in small quantities. These, however, are present in only small amounts, although would still be expected to undergo oxidation and produce the rancid taste commonly found in aged unsaturated oils and fats. However, even after a year this does not happen, which indicates that coconut oil possesses some form of antioxidant properties. This is confirmed by the fact that people eating a diet rich in coconut oil has less of a need for the strong oil-soluble antioxidant vitamin E.

In fact, the metabolism of fats is usually connected with the carnitine transport system in the mitochondria, although the shorter chain fatty acids do not need carnitine for their metabolism. What happens then is that because carnitine promotes oxidation during stress, and causes oxidative damage to body cells, its absence in metabolism of coconut oil fatty acids results in a reduction in the oxidation that degrades unsaturated fats. Hence the lack of rancidity.

Taking this further, then, this lack of oxidation infers that those that take a diet rich in coconut oil (for example using it for cooking rather than animal and vegetable oils containing longer chain fatty acids) should be partially protected against cell oxidation in general. Oxidative effects such as aging, cardiovascular diseases and some cancers should be reduced, and studies have shown this to be the case. Those consuming coconut oil rather than other oils tend to age more slowly, suffer less from heart disease and tend to experience fewer incidences of cancer.

With regard specifically to weight loss, it is believed that consumption of medium chain triglycerides, as opposed to longer chain triglycerides, results in a higher rate of thermogenesis, or the conversion of carbohydrates to energy (fats are also carbohydrates). The first step in this process requires the presence of Coenzyme A in the form of the enzyme acyl-CoA-dehydrogenase, and measurement of the activity of this enzyme has indicated that medium chain triglycerides exhibit much higher expenditure of energy than the metabolism of long chain triglycerides when being converted to fatty tissue. However, though the energy used up in this reaction, known as lipogenesis, was higher, the formation of fatty tissue was the same.

Hence, MCA uses more energy to produce the same amount of fat as LCA, and therefore, although more energy is used up, no new fat is generated by the liver. Since your dietary fat intake can ultimately have only three fates: burned as energy, stored as the emergency energy source glycogen, or deposited as fat, then it is logical that the more energy generated then the less fat will be stored.

In this way, coconut oil, with a high content of medium chain fatty acids, has a scientific explanation for causing weight reduction when used as a source of fat in the diet rather than animal or other vegetable fats or oils. It is converted to energy rather than fatty tissue, and if you exercise to use up that energy then your weight loss can be significant.

What this theory also states, however, is that coconut oil should be used as a replacement for other fats, and not in addition to it. If you take coconut oil in addition to your normal diet, do not expect to see results.

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Date: August 12, 2008 01:37 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Vitamin C

Vitamin C is the most widely taken nutritional supplement on the market and is available in a variety of forms, including tablets, drink mixes, crystals in capsules or bulk powdered crystals. Vitamin C is present in mother's milk and, in lower amounts, in raw cow's milk, with pasteurized milk containing only trace amounts. This vitamin is most present in the liver and least present in the muscle but needed through out the body.

Vitamin C is required for the synthesis of collagen, an important structural component of blood vessels, tendons, ligaments, skin, and bone. Vitamin C can regenerate other antioxidants such as vitamin E; in the body vitamin E can regenerate C as well. This vitamin is required for the growth and repair of tissues in all parts of your body. Relatively large doses of vitamin C may cause indigestion, particularly when taken on an empty stomach.

It has been shown that smokers who have diets poor in vitamin C are at a higher risk of lung-borne diseases than those smokers who have higher concentrations of Vitamin C in the blood. Biological tissues that accumulate over 100 times the level in blood plasma of vitamin C are the adrenal glands, pituitary, thymus, corpus luteum, and retina.

Studies suggest the presence of large quantities of sugar either in the intestines or in the blood can slow absorption of this vitamin. Several studies have demonstrated a blood pressure lowering effect of vitamin C supplementation. Also, when consumed in high doses it appears to interfere with the blood thinning effects of warfarin by lowering prothrombin time, as noted in case reports in the 1970s so consult your doctor if on medications..

In one Study, researchers instructed patients with documented coronary artery disease to take a single oral dose of either 2 g vitamin C or a placebo. Results, the researchers discovered that high doses of vitamin C can help prevent blood platelet sticking and fight cholesterol oxidation. Also, researchers discovered this vitamin can reduce the formation of potentially carcinogenic nitrogen-containing compounds in the stomach, offering protection from stomach cancer, researchers have reported.

French and German researchers found that vitamin C appeared to keep cells in the blood vessel wall from dying. The researchers, who studied immune indicators, such as serum immunoglobulin and neutrophil phagocytosis (how well your white blood cells can engulf and digest foreign bodies), concluded that vitamin C exerts a remarkable immuno-modulating action, in other words, improved immune function in all those who consumed vitamin C on a regular basis.

What are deficiency symptoms for vitamin C?

Scurvy is a disease resulting from lack of vitamin C, since without this vitamin, the synthesized collagen is too unstable to perform its function. Scurvy was common among those with poor access to fresh fruit and vegetables, such as remote, isolated sailors and soldiers. The amount of vitamin C required to prevent “chronic disease” appears to be more than that required for prevention of scurvy which is 30 – 60 milligrams per day. Based on scientific research, vitamin C also appears to improve oral absorption of iron, which is good news for those that are anemic.

Half of us in the United States will die from heart disease. The foundation of heart disease is atherosclerosis, the narrowing of our arteries with plaque. Treatment with vitamin C has consistently resulted in improved dilation of blood vessels in individuals with atherosclerosis as well as those with angina pectoris, congestive heart failure, high cholesterol, and high blood pressure. Researchers believe this protection from cell death could explain previous study findings which suggest that vitamin C benefits blood vessel function in people with congestive heart failure.

Vitamin C supplements are also generally regarded as safe in most individuals in recommended amounts, although there are rarely reported side effects including nausea, vomiting, heartburn, abdominal cramps, and headache. In addition, this vitamin is required for the synthesis of l-Carnitine, a small amino acid that is essential for the transport of fat to cellular organelles called mitochondria, for conversion to energy. If you have chronic fatigue syndrome, vitamin C may help by boosting energy production through the mitochondria.

Therefore, as in many studies of vitamin C intake and cardiovascular disease risk, it is difficult to separate the effects of vitamin C on stroke risk from the effects of other components such as diet and the consumption of fruits and vegetables. As with all dietitians an emphasis on the benefits of a diet rich in fruits and vegetables is important to maintain a healthy cardiovascular system. If one can not consume fruits and vegetables on a daily basis then supplementation of vitamin C is need in either capsule of tablet to fight the risk of disease.

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Date: July 18, 2008 12:36 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: What is Alpha Lipoic Acid?

You can be sure that a supplement has some remarkable therapeutic possibilities when it makes headlines on the five o’clock news. A recent experiment which showed the conditions of rats that had been fed a diet that was totally deficient in vitamin E tested alpha lipoic acid, which caused the rats to return to full health even though no vitamin E was replenished. The results of this test are profound, as giving these rats an alpha lipoic acid caused existing stores of vitamin E that the body was previously unable to use to be regenerated.

Alpha lipoic acid is a vitamin-like antioxidant that has been used in Europe for a long period of time. It has recently emerged as an extremely impressive therapeutic agent that scavenges free-radicals. Recent studies have suggested that it has the ability to stop some degenerative diseases, the oxidative process of aging, and restores the health of diseased organs. Additionally, it has the ability to make up deficits of vitamin E or C and could potentially be one of the best treatments that have emerged for diabetes. Alpha lipoic acid (ALA) is considered to be more potent than vitamins E and C, as well as coenzyme Q10. Unlike other antioxidants, ALA has properties that make it superior because it is able to replace certain nutritional supplements, while potentiating others, and inhibiting tissues from deterioration that is associated with diseases. This supplement is also both fat and water soluble, which allows it to protect lipid and aqueous cell structures.

Alpha lipoic acid is a compound that is synthesized in small amounts in the body, but can also be supplied from food or supplement sources. A vitamin-like substance, it contains sulfur and also plays a crucial role in energy reactions. It can be found in liver, yeast, spinach, organ meats, broccoli, red potatoes, and red meat. When it is orally ingested, alpha lipoic acid is not compromised in the GI tract or the liver.

Numerous studies have been conducted on ALA, all of which confirm its positive effect on metabolic processes, with recent clinical tests supporting its ability to enhance free-radical protection, slow the aging process, and guard against a variety of degenerative diseases. ALA was discovered in the 1930s, where it was originally classified as a vitamin, and later categorized as an essential coenzyme when scientists discovered that it was involved in the energy processes of cell mitochondria. It wasn’t until 1988 that scientists found that it also has powerful antioxidant effects.

Alpha lipoic acid is important because it protects us from free-radicals which are present in a body as a result of the number of toxic substances such as auto exhaust, tobacco smoke, pollution, preservatives, and additives that we are exposed to on a daily basis. These free radicals can actually accelerate the aging process, causing premature tissue breakdown to occur. Additionally, our environment will continue to surround us with these pollutants that create free radicals.

There are things we can do to minimize our health risks, which include exercising, eating nutritiously, and not smoking. However, these measures are rarely enough to decrease our risk for certain degenerative disease a substantial amount. ALA is beneficial because it scavenges oxidants that are left behind and helps to convert carbohydrates, fatty acids and protein to energy that is needed to drive muscle movements.

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Date: June 10, 2008 11:27 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Antioxidants For The Body

Eating the fruits and vegetables that naturally contain antioxidants is the best way to get them into your system. Mixing them into a well-balanced and healthy diet is the best method of all. This way you reap the benefits of all of the antioxidants in a natural combination.

The benefit of dietary antioxidants is that they slow the chemical process of oxidation. This oxidation is what causes narrowing of the arteries and heart-related health problems due to cholesterol deposits. Eating a regular variety of herbs, vegetables and fruits that contain antioxidants is the best way to maintain good health. Some foods that contain antioxidants include:

* Tomatoes
* Garlic
* Onions
* Rosemary
* Grapes
* Pomegranates

Antioxidant supplements are available, lab testing have shown that they are just as effective as their natural counterparts. Natural foods contain ranges of antioxidants that work together synergistically. These combinations of antioxidants are much more effective.

More Benefits:

Antioxidants and other nutrients are needed by the body to protect against cell damage. They also may reduce the risks of certain forms of cancer.

It has been discovered that the mitochondria (cell power plants) are a major source of oxidant production. They are also a target for the damaging effects of the very oxidants that they produce. This is a major cause in the advancement of cellular aging, called apoptosis.

It is believed that in apoptosis, each cell has a fixed number of cell divisions that it is capable of. After the cell has used its allotted number of divisions, it ceases to function. Oxidative damage is also a contributing factor of DNA mutation, which causes further malfunction of the cells.

Most Common Antioxidants:

The following is a list of the most common antioxidants, what benefits they offer and where to find them:

*Beta-carotene keeps the skin healthy and promotes growth and development of bones. It also helps to prevent night blindness and fight infection. Beta-carotene is found in vegetables and fruits: carrots, cantaloupe, apricots, broccoli, peppers, tomatoes, spinach, sweet potatoes and pumpkin.

* Vitamin C destroys free radicals inside and outside cells. It helps in the healing of wounds, preventing bruising, formation of connective tissue, iron absorption and keeping gums healthy. Vitamin C is being studied for its beneficial effects in reducing cataracts, cancer and heart disease. Foods high in vitamin C include tomatoes, citrus fruits and juices, berries, mango, papaya, peppers, cabbage, spinach, broccoli and potatoes.

* Vitamin E acts as the essential fat protector in cell membranes and red blood cells. It reduces the risk of heart disease, cancer and other diseases associated with age. Vitamin E is found in peanut butter, nuts, seeds, vegetable oils, margarine, whole grains, wheat germ, salad dressings and avocado.

* Selenium helps the body maintain healthy hair and nails. It also enhances immunity and, along with Vitamin E, prevents cell damage. Vitamin E reduces the risk of cancers, especially prostate, lung and colorectal. The best sources of Selenium include brazil nuts, garlic, meat, eggs, poultry, seeds, seafood and whole grains. The amount of selenium found in plants depends on the soil content in which they are grown.

Antioxidants benefit the body by providing a layer of protection for the tissues and cells. They are the front line of the body's protection against free radicals. Free radicals are unstable by-products of oxygen that cause premature aging and degenerative diseases. They also come from environmental sources, such as pollution, UV rays and other toxins. Foods rich in antioxidants help to clean free radicals from the body. They also help to prevent various age-related diseases, cancers and heart disease.

Maintaining a healthy, nutritionally balanced body that has the ability to fight disease and infection is a prime way to live a long, disease free and happy life. Regular ingestion of antioxidant rich foods or supplements is the best method to achieve this.

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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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Date: May 15, 2008 01:21 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Copper

Copper is an essential trace mineral necessary for life, and it is necessary for the proper function of certain enzymes that allow certain biochemical functions of the body to take place. Without copper neither plant nor animal life would be possible.

Dietary sources include nuts, grains, seeds, beans and other vegetable protein sources. Although it is also obtained from animal sources, these tend to be rich in zinc, and for reasons that will be discussed shortly, the presence of zinc can deplete copper absorption. Other common sources are copper cooking utensils and drinking water from copper pipes. After digestion, copper is absorbed into the body through the stomach and the small intestine. It is also possible for copper to be absorbed through the skin from copper bracelets.

Once absorbed, copper is bound to albumin and taken by the blood to the liver, where it is bound to a plasma protein known as ceruloplasmin. Among the enzymes with which copper is associated as a ‘helper’ are Cytochrome C oxidase, used in the conversion of glucose to energy, Dopamine hydroxylase, an essential component in the biochemical production of adrenaline, and superoxidase dismutase, that protects against the oxidative damage of cell tissue. Of particular benefit are its anti-inflammatory and antioxidant properties, and its role in energy production. Because of its antioxidant effect, copper could well play a very important role in protecting against atherosclerosis, and cardiovascular disease, the ravaging effects of free radicals on body cells and also certain forms of cancer.

Copper is also important in electron transport, and is responsible for the blue coloration of the blood of most molluscs and many arthropods. This is because rather than hemoglobin, these animals use the copper-based hemocyanin for oxygen transport in the blood. Rather than the iron-containing hemoglobin making the blood of these creatures red as it is with mammals, theirs is blue due to the hemocyanin. Copper salts are generally green and blue, as are the blue copper proteins plastocyanin and azurin.

So how is copper used by the body? It is, after all, fairly toxic, as little as 30 grams being fatal to humans, bringing on similar symptoms to those of arsenic poisoning. It is in fact the reason for its toxicity that also renders it so useful to the body. The toxicity is largely due to the ability of copper to accept and donate electrons as it changes between oxidation states. This results in the generation of very reactive radicals that can cause severe oxidative stress. The complete reason for its toxicity has yet to be determined, but the stress caused to body cells by free radical oxidation is a very serious condition.

It is this rapid change in its oxidation state that is valuable to the enzymes with which it is associated. The ceruloplasmin is responsible for most of the transport of bivalent copper around the body, in the tissues of which it helps to form the bivalent copper enzymes previously mentioned, such as Cytochrome C oxidase and Lysyl oxidase. In doing so the copper is converted to the monovalent state.

It also helps to aid in the production of the strong antioxidant Superoxide dismutase (SOD). What this enzyme does is to catalyze the formation of oxygen and hydrogen peroxide by the dismutation of superoxide, a negative ion consisting of two oxygen atoms and a free electron, and hence a very powerful free radical. Dismutation is the simultaneous oxidation and reduction of the species, rendering the free radical relatively harmless. This type of action on free radicals is a very powerful one, and essential in the body’s fight against such free radical species that are so dangerous to animal cells.

SOD exists in more than one form, and can also contain zinc, manganese and nickel in addition to copper. The internal fluid (cytosol) of practically all eukaryotic cells (cells containing a nucleus) contain a form of Superoxide dismutase dependent on copper and zinc, while most mitochondria contain an SOD with manganese.

Another of the important uses that your body can find for copper lies in the production of hemoglobin. This is because copper is needed for the storage and release of iron to produce hemoglobin, the protein in red blood cells. It is believed that ceruloplasmin is involved in the catalytic formation of ferric iron by the oxidation of ferrous iron, so allowing the iron to be attached to a protein that transfers it round the body to enable its use in the biosynthesis of various ferrous compounds, especially of hemoglobin.

Copper bracelets are commonly worn by arthritis sufferers, and there is a scientific explanation for that. As previously inferred, it is believed to be possible to absorb copper through the skin and copper is known to be involved in the formation of collagen and is a commonly used treatment for arthritis and osteoporosis. Part of its effect on arthritis is likely due to the antioxidant effect of the SOD that helps to reduce the inflammation at arthritis sites.

Although a deficiency in copper can lead to serious health problems, an excess is also harmful. Potential conditions include neurological problems, liver damage and bone abnormalities, although deficiency is far more common because of the competition between copper and zinc. Zinc is a copper antagonist, as is iron and manganese, and copper imbalances can be moderated by the use of these as supplements.

The symptoms of a copper deficiency include fatigue, hair loss, stunted growth, anorexia and a host of other conditions. Luckily, however, a deficiency is rare and most people receive a sufficient amount of copper in their diet. Supplements are available to ensure an adequate intake.

There is still much to be learned about the interaction between copper and enzymes, and there is also a great deal still to be learned of its role in human metabolism and biochemistry than is currently known. However, sufficient is known already for us to be certain that copper is a very important trace element and that we should be certain that our intake is sufficient, given that zinc iron and manganese compete to prevent copper being absorbed by the body.

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Date: May 13, 2008 04:54 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Lipid content by percentage

Phosphatidylcholine (PC) 68% Assists in the introduction of DHA into the or Marine Lecithin heart muscle. Protects the mitochondria from oxidative damage, decreasing the impact of auditory and visual aging.

Phosphatidylethanolamine (PE) 11% Combined with PC, helps in the building of the myelin sheath.

Phosphatidylserine (PS) 9% The most widespread of all membrane PLs, protects from ischemic attacks (stroke) or age-related dementias.

Phosphatidylinositol (PI) 5% Acts on the regulation of cellular calcium. Has shown its effectiveness on obsessive compulsive disorders, panic attacks, depression, manic depression and Alzheimer’s disease.

Sphingomyelin (Sph) 5% Its pro-apoptotic activity decreases the risks of coronary hear t disease and cancer of the bowel (colon). Decreases parietal cell toxicity of bile salts. Sphingolipids are mostly present in the myelin sheathes.

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Date: May 07, 2008 03:18 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: B Vitamin Supplements

The fact that B vitamins have had to be coenzymated before they can be used by your body has been known for some time, but it is only over the past few years that they have been made commercially available in that form. Before we discuss the B vitamins in their coenzyme form it might be appropriate to discuss what coenzymes are and how they differ from ordinary enzymes.

An enzyme is like an organic catalyst: it takes part in biochemical reactions by allowing such reactions to take place, but itself remaining unchanged. All enzymes are proteins formed in your body from amino acids and other protein material. A coenzyme, on the other hand, is somewhat like an enzyme for the enzymes, in that it is needed for the enzyme to do its job. Without a coenzyme, many enzymes could not promote the biochemical reaction it is responsible for.

The B vitamins are all water soluble, which means that they are readily excreted and it is not impossible that if you take a B vitamin supplement, the whole lot will be immediately excreted in your urine if not used by your body. Whether they are or not it is a fact that your body can quickly become depleted of the B vitamin group, especially if you drink a lot. Alcoholics in particular are frequently vitamin B deficient. Although the liver can store unused vitamin B, they are only very small quantities and insufficient to prevent a deficiency.

A deficiency in the B vitamins can cause a wide range of unpleasant conditions that are rapidly remedied with supplements. Pellagra is due largely to a deficiency in Vitamin B3, and causes hair loss, horrible skin lesions and many other side effects that you don’t want to know about. Vitamin B12 deficiency can cause loss of memory, and is common in alcoholics and some vegetarians (vitamin B12 is animal derived). Other symptoms of a general B vitamin deficiency include exhaustion, heart palpitations, fibrillation, anxiety, restlessness, attention deficit disorder and many, many more.

It is not pleasant so you make sure that take enough vitamin B in your diet: dietary sources are far superior to pills although supplements will help you get over the symptoms of the deficiency until your diet takes over. Supplementation is also a good way to maintain a regular supply of vitamin B complex irrespective of your diet. The effects of a deficiency are so bad that a regular supplement is well worth taking.

However, back to coenzymes and why they are needed for the metabolism of B vitamins in your body. Most B vitamins are, in fact, coenzymes themselves. Keep in mind that the definition of a vitamin is an organic substance that is essential for the normal health of your body. If you lack even one vitamin, your health with suffer and eventually you will be likely to die. That describes all of the B vitamins perfectly, and they also just happen to be coenzymes. This is not coincidence, of course, and their biochemistry must have been recognized before the concept of coenzymes was formulated.

The B vitamins proper consist of eight distinct proteins: B1 (thiamine), B2 (riboflavin), B3 (niacin), B6 (pyridoxine), B9 (folic acid), B12 (cyanocobalamin), and biotin and pantothenic acid. They are all essential components in human and animal metabolism, and most are also coenzymes.

Every cell in your body depends on B vitamins for its existence, which is why pregnant women should include a good supply of them in their diet, especially folic acid (B9). They are essential for the cellular development of the fetus. Folic acid is necessary for the synthesis of nucleic acids that allow cell growth and the production of red blood cells. However, not one can be placed in importance above any other since they are all essential.

With respect to the coenzyme factor, the vitamin B coenzymes are responsible for many of the biochemical reactions upon which life depends. Coenzyme B-12 for example is essential for two types of reaction that it catalyzes, one being a hydrogen atom exchange with alcohol and amine functional groups, the other being connected with methyl group transfer between molecules.

In humans, the first of these is responsible for an essential step that results in energy being metabolized from fats and proteins in the mitochondria and the second for DNA production in cells that is indirectly responsible for growth. Each of these is why a vitamin B-12 deficiency leads to excessive fatigue and also a lack of fetal growth (although folic acid can make up for the latter deficiency).

Thiamine (Vitamin B1) is a coenzyme for the metabolism of carbohydrates to energy. In the body it is present in the form of thiamine diphosphate, a coenzyme that assists in the decarboxylation of pyruvate as part of the citric acid cycle, otherwise known as the Krebs Cycle, that takes place in the mitochondria and is responsible for the generation of energy through aerobic respiration.

Another coenzyme that is involved in the Krebs Cycle is formed in the body from Vitamin B3, or niacin. This coenzyme, nicotinamine adenine dinucleotide, has a redox potential and can store energy for use later on. Vitamin B5 can be converted in the body to Coenzyme A that not only breaks proteins down into individual amino acids, but also takes part in the first part of the Krebs Cycle. There is a common pattern emerging here where the B vitamins have an important part to play in the generation of energy from fats and carbohydrates.

Similarly, Vitamin B6 is present in the body as the coenzyme Pyridoxal 5'-phosphate that helps to break down the body’s emergency energy store, glycogen, into energy when needed.

In these ways, and more, the coenzymes created in the body from the B vitamins help many of the reactions of life to take place, and without these coenzymes life could not exist. Hence the importance of the B vitamins themselves, and any deficiency could be disastrous to the metabolic processes that generate energy and keep you alive. It is not just the energy needed for exercise and normal human activity that will be compromised, but also that which keeps the heart beating and your diaphragm moving to allow you to breath.

Without a doubt, a Vitamin B supplement is one of the most valuable of all the vitamin supplements, and they are available in many forms. You might also find some of the B vitamins in their coenzyme form, though some of them may be unstable. However, whatever form they are taken in, Vitamin B complex should be one of the first on your vitamin supplement shopping list.

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Date: April 28, 2008 02:45 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Cherry Fruit Extract

Cherry fruit extract contains organic compounds known as flavanoids, which is a form of phytochemical frequently found in highly colored fruits and vegetables. If you eat a fruit such as pomegranate, blueberry, blackberry or cherry, or if you eat red peppers, aubergines and broccoli, you are eating foods that are rich in flavanoids.

Such foods provide you with remarkable health benefits that your ancestors knew about but did not understand. They ate these highly colored foods because they knew they helped prevent certain medical conditions, and to help others get well faster. They knew nothing about phytochemicals – chemicals contained in plants – or flavanoids, but knew about the results of eating them.

In fact, flavanoids are very powerful antioxidants and anti-inflammatories, and each of these require more detailed explanation since between them, oxidants and inflammation are responsible for most of the non-infectious common ailments of the human body. First, let’s have a look at antioxidants.

In chemical terms oxidation is the removal of an electron from an atom or molecule. There are species within your body known as free radicals whose sole purpose in their short life is to steal an electron from the nearest molecule to them. This is almost instantaneous, and most free radicals are very short lived. The concept of free radicals roaming your body and your bloodstream waiting to pounce on the first unwary molecule is a fairy tale. In fact the vast majority react as soon as they are formed.

When they do react, they remove an electron from a stable molecule, render it unstable and thus destroy it. If that molecule is part of a cell, and enough of them are robbed of their electrons, then the cell is destroyed. One result in visible terms is wrinkling of your skin, as your skin cells become destroyed, and hence you age quicker. In terms that you are not immediately aware of, oxidation can lead to many unwanted changes in your body.

For example, the low density lipids, that carry the cholesterol in your blood to areas of the body where it is needed, are oxidized by free radicals which causes the LDL to deposit along with their cholesterol on the walls of your arteries as a layer of plaque. Eventually that will build up to constrict the artery and cause a condition known as atherosclerosis – the arteries become blocked, and you can suffer from heart attacks and strokes.

These free radicals are formed by the normal metabolism of the body when energy is created in the cell mitochondria, by pollutants such as pesticides, cigarette smoke and traffic fumes, and by radiation such as excessive exposure to the UV radiation in sunlight.

Flavanoids, contained in cherry fruit extract, are antioxidants, which prevent this oxidation of body cells from taking place. They do so by being in the right place at the right time. If a flavanoid molecule is close to a free radical when it is generated, then the antioxidant will reduce the free radical and neutralize it.

If you eat a lot of cherries, or drink cherry fruit extract, you will be consuming a massive amount of flavanoids molecules that are ready and willing to destroy these free radicals. However, that is not all that flavanoids do. They are also, as has already been stated, anti-inflammatories.

The inflammatory response is the reaction of the body to a foreign presence such as bacteria. The tissues around the infected area receive an increased blood supply, and the cell walls produce gaps allowing the large immune system blood cells, or macrophages, to pass through. The temperature around the area increases due to the concentration of blood, and this itself is controlled by the body since bacteria die off after a certain body temperature has been reached, hence the reason for fever in the immune response.

The area swells up due to the concentration of fluid and protein, and becomes painful due to pressure on nerve endings. Anti-inflammatories, such as the flavanoids, work to relieve the symptoms of inflammation without interfering with the way the immune system deals with infection.

Many inflammatory conditions occur without any apparent reason, and while anti-inflammatories might not be used to suppress the immune system, it is used in such conditions as rheumatoid arthritis where the inflammation is a mis-firing of the immune system. Cherry fruit extract can be used to alleviate many similar conditions such as gout, and osteoarthritis where its use is well known and recorded.

It can also be used to help reduce the effects of atherosclerosis through its anti-oxidant properties, and cherries contain, not only a good supply of flavanoids, but also anthocyanins, another group of powerful antioxidants. They also contain vitamin C which is also a strong antioxidant.

Another property of flavanoids is their collagen strengthening properties, which they achieve by cross-linking the fibers to form a string fibrous network. That can be used to strengthen the walls of veins, and render them less liable to stretch or expand, thus providing them with the rigidity needed to prevent varicose veins caused by the puddling of blood below weak valves. They have the same effect on arteries, providing increased strength and a reduction in the blood pressure needed to pump blood round the body.

A good intake of cherry fruit in your diet will help to improve the condition of your cartilage and other connective tissue in addition to your veins and arteries, and is particularly appropriate for athletes who place great stresses on connective tissues such as the tendons that transfer muscular energy to the levers – the long bones.

In summary, then, cherry fruit extract and the flavanoids and anthocyanins it contains, posses properties to help relieve the symptoms of gout, and various forms of arthritis, to reduce the likelihood of cholesterol oxidation that leads to heart disease and strokes, to help strengthen the walls of veins and arteries and to improve the strength of connective tissue such as cartilage and tendons.

In other words, to improve the quality of life of the majority of the population that suffers from one or more of these conditions. After learning about the health benefits of cherries and all the mounting evidence in research, my question to you is why did the FDA make cherry farmers pull the health benefits of cherries from their websites with threats of legal action if not removed? Makes a person wonder who is on our side and who isn’t?

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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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Date: April 17, 2008 02:57 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Health And Applications Of Coenzyme Q10

Coenzyme Q10 is a critical cofactor in the biological energy process. It is a powerful antioxidant and plays a vital role in our health and wellness. Coenzyme Q10 is involved in many disease states, consuming adequate coenzyme Q10 can ensure that one maintains good health which can reduce the risk of chronic disease such as the ones listed below:

Cardiovascular disease

• Cardiomyopathy
• Angina pectoris
• Arrhythmias
• Mitral valve prolapse
• Hypertension
• Atherosclerosis
• Cardiotoxicity (drug induced)

Neurodegenerative disease

• Huntington’s disease
• Parkinson’s disease
• Amyotrophic lateral sclerosis (ALS)

Neuromuscular disease

• Mitochondrial cytopathies (melas, merrf, ect.)
• Muscular dystrophy
• Ataxias
• Chronic obstructive pulmonary disease
• Asthma
• Immune disorders
• Periodontal disease
• Chronic fatigue syndrome

Many prescription drugs can cause Coenzyme Q10 to deplete especially statin drugs (cholesterol meds). Beta blocking drugs and anti-diabetic drugs can also leach the body of vital Coenzyme Q10 which could lead to the above diseases if left un-checked over time.

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Date: April 16, 2008 03:25 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: L-Carnitine For Health And Wellness

Research continues to mount evidence that l-carnitine can help boost energy and quality of life. Carnitine comes from the Latin word for flesh: caro or carnis. L-carnitine was discovered and isolated from meat in the early 1900s. At that time, scientists thought that l-carnitine played a role in muscle function; this was many years before technology would advance so that this theory could be proved. Today, we know that this amino acid is found mostly in tissue of the body that requires lots of energy such as the heart, skeletal muscles, and liver.

L-carnitine is considered a non-essential amino acid since the body manufactures it from l-methionine and l-lysine. Depending on one’s diet, the body manufactures most of, not all, the l-carnitine it needs every day. There are circumstances where a rare genetic disease can cause the body to not manufacture its own l-carnitine resulting in a deficiency which can cause secondary diseases such as cirrhosis of the liver, chronic renal failure, diabetes, heart failure or Alzheimer’s disease. Some medications can cause a deficiency as well, check with your doctor about prescriptions.

The primary energy source for the body is long-chain fatty acids. L-carnitine plays an essential role in energy production process. This amino acid transports long-chain fatty acids into the mitochondria, where it is used to produce energy for each cell in the body. l-carnitine then removes the “acyl” group by products out of the mitochondria as they accumulate. Both the transporting in and out of the cells mitochondria is vital for continued muscle function to occur.

Researchers suggest that the limiting factor in high intensity exercise is from the availability of l-carnitine in the muscle tissue. Studies conducted with this amino acid suggest that athletes experience improved performance when supplementing with l-carnitine by reducing post exercise lactate acid levels and improving recovery from exercise stress.

Some research suggests that l-carnitine can help chronic fatigue individuals by shuttling long-chain fatty acids into the mitochondria where the body manufactures energy. The bulk of this research was done on chronic fatigue patients who consumed 2 grams per day of l-carnitine. Additional research was performed on individuals over 100 years of age and the results were these individuals experiences increase physical endurance and improved cognitive activity.

L-carnitine can help cardiovascular conditions including angina, congestive heart failure, and peripheral artery disease. Recent studies showed male fertility improvement when l-carnitine was consumed on a regular basis. Men participating had better sperm motility which increases the changes of one reaching an egg and improving the odds of fertilization.

Research also demonstrated that 1 gram of this amino acid daily over three months can help one reduce weight by improving fat metabolism. This holds consistent with the findings that l-carnitine transports long-chain fatty acids (fat) into cellular mitochondria so it can be burned as energy. With a good diet and exercise plan, reports suggest that even more weight loss can be achieved.

Safety is of particular concern when adding extra supplements to one’s diet such as l-carnitine. Good news, l-carnitine is very safe at 1 – 3 grams each day, even higher doses are safe with no side effects. With the mounting evidence on the benefits of l-carnitine consumption, what is stopping you from adding l-carnitine today to your supplement diet to improve health and wellness?

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Date: April 14, 2008 12:42 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Biotin For Better Health!

Biotin is one of the B vitamins, known as vitamin B7 and also, for some reason, vitamin H. If you have a deficiency of this vitamin you will know about it because it makes you bald. So keep up your vitamin B7 intake girls!

However, this should not be difficult since it is contained in cooked egg white (not raw), tomatoes, chard, onions, cabbage, strawberries, walnuts, halibut, carrots, liver, brewers yeast and cucumber to name but a few of the many sources. It makes sense that it has so many sources because biotin is essential for many of the biochemical reactions that take place continuously in your body.

It is contained in raw eggs, but is bound too tightly to the protein to be available to your body. It has to be cooked before the bond is broken sufficiently to render it bioavailable.

Included in these is the all-important Krebs cycle that releases energy from food. It is necessary for the growth of your body cells, for the metabolism of the fats you consume and for the biosynthesis of the fatty acids that are eventually converted to proteins and then the DNA that is essential for life. In other words, without biotin we would not be here.

However, do not get overly worried about the necessity of biotin in your diet, since the same applies to all of the other vitamins you consume. That is what vitamins are chemicals that have been identified ages ago as being essential to life. Without vitamins we could not survive which is why the vitamin supplement industry is so strong and healthy.

So, what does biotin do specifically, other than being necessary for some of the essential biochemical processes in your body? These tend to look after themselves, so what are the physical attributes that biotin provides for you? The name should give you a clue. In fact it should be familiar since it is one of the more commonly mentioned ingredients of hair care products: “Biotin for Healthy Hair” - ring a bell?

Although a deficiency of biotin is rare with a healthy balanced diet, it can happen, and when it does your first sign might be your skin drying out, your cholesterol levels will increase, you will feel continually tired and depressed with a poor appetite and you will be nauseous. You will also frequently vomit, which puts the icing on the cake of a set of very undesirable symptoms. It is important, then, that you do not suffer from a deficiency of biotin, vitamin B7 or vitamin H, whatever you want to call it, and is why many people take a supplement just to make sure.

This is normally taken as part of a general B complex supplement or even a general multivitamin supplement, since almost everybody has no idea what this vitamin is and why it is so necessary for your continued health. So let's have a look at why biotin is so important, with specific reference to your hair, skin and nails. However, we shall also examine its deeper biochemical uses and explain why it is such an essential vitamin.

With regard to biotin supplements in hair preparations, it benefit’s by helping one grow thicker hair, symptoms of a deficiency is brittle hair. If you are deficient, you will lose your eyelashes and eyebrows in addition to your hair, depending on the severity of your deficiency. As stated, however, that is particularly rare. The biotin content of shampoos is likely useless since it is not absorbed through the skin.

What it does in the diet, however, is to thicken the nails and also the hair fiber giving it a fuller appearance, so that you appear to have more hair than you actually have. It also increases the flexibility of the hair, skin and nails rendering them less brittle and less liable to breaking and scaling. However, as previously stated if you eat a good balanced diet you should avoid these problems, although a vitamin B complex supplement will do the job just as well.

So what else does vitamin B7 do for you? Lots in fact, so let's have a look at the more important of them starting with the function of your body cells in the production of energy. Biotin takes part in the Citric Acid Cycle, otherwise known as the Krebs Cycle, whereby energy is created by the conversion of carbohydrates, fats and proteins into carbon dioxide and water. It is one of the essential metabolic pathways of life, and biotin is needed to recharge the Krebs cycle with metabolites when mitochondria become deficient in these essential components.

Without them you would begin to feel tired and lack energy, and this would get increasingly worse without a biotin supplement. It is amazing that your energy is created in the mitochondria which are a part of the tiny cells that make up the tissue of your body, and equally amazing that it depends upon, among other substances, a vitamin of which very few people are even aware of.

In spite of any other effect biotin has on your body, including providing healthy hair, skin and nails, its primary role in your body is in the metabolism of proteins, fats and carbohydrates into a form that can be used by your body for the production of energy. Biochemically, it functions as a coenzyme, which is a molecule needed to help an enzyme do its work. In fact an alternative name give to biotin is Coenzyme R.

It helps in the biochemical conversion of sugars to energy, and is a component of enzymes such as pyruvate carboxylase. That enzyme is protein contained within the mitochondria that contains a biotin prosthetic group, without which it could not function to help the body to generate energy during exercise. Suffice it to say that without biotin you would find it difficult to generate energy, especially when the demand for it is at its highest.

Biotin's biochemical role is not restricted to energy production however, and it is involved in the biochemical synthesis of amino acids and also of glucose from other sugars. Glucose is the main blood sugar that is manufactured in the body from the other saccharides that you eat, such as fructose.

A reasonable level of supplementation to ensure that you do not suffer from a deficiency is around 100 micrograms daily, although up to 5 milligrams (5000 mcg) are safe for the treatment of brittle nails or hair loss. Much depends on age and it is best taken as a vitamin B complex supplement, since the B vitamins appear to give best results as a team!

So, while you can have healthy hair, skin and nails with biotin, without it you will have no energy and likely have no need for your hair, skin and nails!

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Date: April 11, 2008 11:24 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Blue Green Algae a Super Food that is Foods Packed With Nutrients. Vegetarian Friendly

Blue green algae are not only an excellent source of amino acids and protein, but are generally considered to be the king of superfoods. It contains just about every nutrient you could think of, and has the added advantage of being completely natural and easily assimilated into the body.

In the USA it is harvested in Oregon, in the upper regions of the Upper Klamath Lake, although it is also available in many other parts of the world. Blue green algae are about the best source of vegetable protein and amino acids available to the human diet, although are now generally used as a supplement rather than as a primary food source.

However, in spite of its name, it is not an alga at all: it is a bacterium: Aphanizomenon flos-aquae (AFA), known as cyanobacteria, after the Greek for blue. Nevertheless, bacteria or not, blue green algae offer exceptional nutritional benefits and also health benefits to people suffering from certain conditions. Here are the best of its benefits:

1. It is natural and therefore easily assimilated and digested. You get a very high useful yield from its nutrient content, unlike other foods where a large proportion can be passed through the gut unchanged. In fact a large proportion of the food you eat passes through your body unchanged, although that is mainly due to a lack of chewing!

2. It is very high in protein, and helps to maintain healthy hair, nails and skin. If you are on a vegetation diet this is an ideal source of non-animal protein (unless you class bacteria as animals!). If you want numbers, at least 60% of the solid content of this material is vegetable protein human-ready for use.

3. It is packed full of enzymes that aid digestion, and so ensures that not only is it itself fully digested, but also that you get the most nutritional benefit from any other foods you eat. A lack of enzymes is very common in the western diet, especially the North American diet, and if you take a regular supply of blue green algae, then you need not also take enzyme capsules.

4. It possesses cleansing and detoxifying properties, and so helps to reduce the incidence of headaches and allow you better and more restful sleep. Toxins can act on your body to cause pain, and is associated with the free radicals discussed below.

5. It is very high in antioxidants that destroy the free radicals in your blood and tissues. Free radicals destroy body cells and can seriously damage your health. Among the health benefits that blue green algae provide due to its antioxidant properties are:

a) It supports the immune system and helps to prevent inflammation in your joints. It also enables you to fight off bacterial and viral infections quicker. b) It maintains the integrity of your body and skin cells, and reduces cell damage by free radicals. This has an anti-aging effect and preserves the youthful appearance of your skin, resisting wrinkling and maintaining its firmness. c) Blue green algae help to prevent the free radical oxidation of the LDL lipids that transport cholesterol that cause the atherosclerosis that can lead to heart attacks and strokes.

6. It provides you with energy through its effect on your body’s metabolic conversion of blood glucose to energy within the mitochondria. This is partially due to its antioxidant effect and partially to the nutritional content of the bacteria. The bacteria are also a rich source of glycogen that is your body’s store of emergency energy. Your liver can use the bacteria to biosynthesize its own store of glycogen that your body can use if called upon for a sudden burst of energy.

7. The amino acids it contains are of low molecular size, and can cross the blood-brain barrier. It provides nutrition to the brain, and its high chlorophyll content helps to purify the blood. Its high content of trace minerals and naturally chelated minerals renders them extremely bioavailable, and able to provide a high degree of nutrition to the brain and other organs of the body. Blue green algae contain rhamnose that helps nutrients to cross from the blood to the brain, and then to the brain cells that need it.

8. Blue green algae have been shown to help memory and mood. This is likely due at least in part to its fatty acid content, and its effect on serotonin levels.

These eight benefits are more than any other individual food source can provide, and in themselves justify the claim that blue green algae is the best individual food source there is. However, when we have a look at the active ingredients, and nutritional content of the bacteria, then it seems even more impressive. There is more to blue green algae than just a few vitamins and minerals. You can get these in any multivitamin supplement: this stuff is completely natural and all of its ingredients are completely compatible with the human digestive system.

Many of the synthetic vitamins you find in boxes and tubs are only partially absorbed due to the form they are in. Either that or they need the presence of other substances before they can be assimilated. An example is calcium, which is next to useless without magnesium and vitamin C also being present to allow it to be incorporated in the structure of the bones and teeth. With blue green algae, every combination of substances that nature needs for them to work properly is there. Everything gets used and everything has a role to play.

The amino acids and proteins have already been mentioned, and these unusual bacteria contain all of the trace minerals that are necessary for the amino acids and proteins to be properly used. It also contains a large quantity of beta-carotene (a natural Vitamin A precursor and strong anti-oxidant), and is also rich in Vitamin B-12 that most vegetarians are deficient in. It is therefore the perfect food for vegetarians and vegans.

If you understand the health benefits of omega 3 and omega 6 fatty acids, which blue green algae are also rich in, then you will understand how a foodstuff containing these fatty acids and all of the other nutritional substances listed above could be regarded as a ‘Superfood’.

Blue green algae is probably the richest food available commercially to humans, but before you use it you should ensure that the content of blue algae in the supplement you purchase is clear and that you are purchasing a standardized amount in what you are purchasing.

Otherwise, it is difficult to see how anybody could go wrong with blue green algae, since it is indisputably an excellent source of protein, amino acids, vitamins and much, much more.

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Date: April 07, 2008 01:05 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Ubiquinol Reduced CoQ10

Ubiquinol, which is the reduced from of Coenzyme Q10 (CoQ10), has been recently added to the supplement offerings of many companies and has generated a lot of confusion along with its excitement. As a supplement, ubiquinol is somewhat new, but as a critical part of human metabolism, our knowledge of ubiquinol goes back to the discovery of CoQ10. Although CoQ10 is often thought of as a “static” nutrient in the context of nutrition, it actually interchanges between two useful states: the oxidized ubiquinone, and the reduced ubiquinol.

Coenzyme Q10 is a member of a family of important biological compounds which are referred to as ubiquinones. It is a lipophilic, water-insoluble substance, which takes part in a large array of biochemical oxidation and reduction reactions. It was first identified in 1957 as an essential component of the energy production system in cells. CoQ10 and other members of the ubiquinone family have, since then, been identified as critical metabolic compounds in a range of aerobic organisms. Because of its crucial role in metabolism, humans have the ability to make their own CoQ10, although small amounts can be obtained through diet and as supplements.

In humans, CoQ10 is found in each cell in the body, but is particularly abundant in tissues which have large energy requirements such as the heart, liver, kidneys, and skeletal muscles. Smaller amounts can be found in the brain, lungs, and intestines. There are also substantial amounts that can be found in circulation, which are most often associated with lipoprotein particles. In total, CoQ10 in a normal adult has been estimated to be between 0.5 and 1.5 grams. Inside cells, about half of the CoQ10 is found within the mitochondria, where the final steps of CoQ10 production occur.

CoQ10 which is not located in areas of the cell and are not charge with producing cellular energy can amount to about 50-60 percent of the total CoQ10 pool. CoQ10 can be found throughout cell membranes and in other cellular structures such as the nucleus, cytoplasm, and endoplasmic reticulum. Some experimentation has also concluded that, while the final steps of CoQ10 production occur in the mitochondria, it can be exported to other sub-cellular locations.

While participating in various oxidation and reduction reactions, CoQ10 is cycled between two stable states: a fully oxidized form referred to as ubiquinone, and a fully reduced form called ubiquinol. CoQ10 cycles through these oxidated/reduced forms in order to achieve its metabolic goals. The cycle of CoQ10 is simple. Ubiquinone picks up electrons and then becomes ubiquinol. Ubiquinol then release its electrons and becomes ubiquinone again. Therefore, it would seem that CoQ10 has a very simple function of moving electrons, as the transfer of electrons is a fundamental step in the production of energy, the regeneration of antioxidants in cell membranes, and the construction of other important biological molecules. Each cell that is in the body needs a source of energy in order to survive. Therefore, sugars, fats, and amino acids are broken down in order to make energy.

In the mitochondria, CoQ10 is abundant, as it carries electrons to aid in the chemical reactions that burn cellular fuel and produce chemical energy to form ATP. Since substantial amounts of ATP are needed to power our cells, the importance of CoQ10 in human metabolism is easily understood. Both forms of CoQ10 are needed to transfer electrons between energy-producing reactions. Outside of the mitochondria, CoQ10 performs a slightly different role as a membrane and antioxidant. About half of the human body’s total CoQ10 pool may be functioning in this capacity. CoQ10 is one of the major antioxidant elements of the LDL particles and is also one of the first to be depleted when LDL is subjected to oxidation.

A discussion of CoQ10 would not be complete without mentioning its documented health benefits. Supplemental CoQ10 has been the subject of a lot of studies over the last half century, especially in applications for cardiovascular health. Many studies have shown benefits of CoQ10 in patients who are diagnosed with chronic heart failure, exercise-induced angina, hypertension, or those who have recently experienced infarction. There is also early evidence showing that CoQ10 may protect the heart from damage during chemotherapy, bypass surgery, or in diabetes. Aside from its cardiovascular uses, CoQ10 has been studied for its benefits in other conditions involving dysfunctions in cellular energetics, neurological degeneration, or oxidative stress damage. Although the clinical evidence for the potential benefit of CoQ10 in many of these applications shows promise, the variability in study outcomes proves it necessary to further research these areas for a more definite answer.

As we have previously seen, CoQ10 functions by cycling between two stable forms, ubiquinol and ubiquinone. This cycle results in the generation of cellular energy and the protection of membranes and lipids from oxidation. Dietary or supplemental CoQ10 also takes part in this cycle. Supplemental ubiquinol may have a distinct advantage over ubiquinone in its facility of absorption. Like many fats and lipophilic nutrients, CoQ10 is usually taken up by the intestinal electrolytes, packaged into lipid particles, and then released into the lymphatic system. From there, these particles are transferred into circulation where they are free to be transported throughout the body as needed.

The absorption of dietary CoQ10 is actually quite poor since it has limited solubility in lipids and depends on other contents of the gut. Some studies have measured that absorption is as low as 2-3 percent of the total dosage. One of the most thrilling consequences of the development of a stabilized dosage form of ubiquinol is its ability to be absorbed more efficiently than ubiquinone. There is evidence that CoQ10 must be reduced in intestinal enterocytes before the release into the lymphatic system. This, paired with absorption/reduction, may be a rate-limiting step of CoQ10 assimilation.

Dietary ubiquinol avoids this reduction reaction, and is directly available for absorption, which explains why ubiquinol-based CoQ10 supplements exhibit enhanced bioavailability over ubiquinone supplements. Preliminary studies in humans have shown that absorption of ubiquinol is at least double the absorption of ubiquinone. Comparisons of blood levels between trials also estimate the improvement in absorption to be significantly higher. Future studies are necessary to more accurately determine ubiquinol’s enhanced absorption, and what effect the patient age or medical condition may have on these results.

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Date: February 15, 2008 02:55 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Alpha Lipoic Acid is a Powerful Antioxidant

The discovery of alpha lipoic acid at the University Of Texas Chemistry Department in 1951 was not heralded with trumpets of joy at the revelation of such a powerful antioxidant, but was instead largely ignored. This is largely due to the biochemistry involved not being fully understood at that time, but by the 1980s it was a commonly used supplement, recommended for several medical conditions.

Chemically, the substance is a 5-membered cyclic disulphide with a carboxylic acid grouping. Biochemically, it’s extremely powerful antioxidant properties are largely due to the fact that it one of those rare active molecules that are soluble in both water and fats, and in fact is the only such antioxidant currently know. One of the properties that this ability enables it to possess is to cross the blood-brain barrier, and apply antioxidant propertied to the brain.

Antioxidants are essential to human life in that they destroy free radicals. These are compounds with free unpaired electrons that destroy human body cells in their hunt for electrons to pair with. Electrons come in pairs in organic animal tissue, just as they do in organic compounds. However, under certain circumstances this pairing can become destroyed, leaving a molecule with one of its electrons without a partner.

The factors that lead to this situation are many and varied, and our own biochemistry can produce free radicals during the normal chemical processes of life. However, pollution can also lead to the oxidation processes that create free radicals, common such pollutants being cigarette smoke, vehicle exhaust fumes, pesticides and the like. Excessive exposure to the UV content of sunlight can also create free radicals as can eating barbecued and smoked foods, and exposure to carbon monoxide and peroxides. Even the biochemical conversion of glucose to energy in our bodies creates free radicals.

These free radicals can destroy body cells, including DNA, and can create conditions such as premature aging due to destruction of skin cells, destruction of brain cells, strokes, cancers, diabetes, atherosclerosis due to oxidation of LDL cholesterol that deposits in the main arteries of the body, stiffening of the joints and many other undesirable conditions.

Free radicals are destroyed rapidly by antioxidants: the reaction is very rapid and most are destroyed immediately they are formed before they can do harm. Fortunately, if your diet is well maintained, the body possesses many antioxidants such as vitamins A, C and E, and other substances such as Coenzyme Q10, flavanoids, xanthenes, polyphenols and carotenoids. Many of these are found in highly colored foods, and if your food is brightly colored, it should contain a good supply of antioxidants.

However, the problem with all of these is that they are either fat and oil soluble or water soluble, which means that they can either be freely carried round the body by the blood or have to be emulsified by the bile and transported via the lymphatic system that places restrictions on their effectiveness in certain organs of the body. The fact that alpha lipoic acid is soluble in both water and fats enables it to be carried to all parts of the body and to every organ, and can cross water/fat barriers that other antioxidants cannot do.

It can therefore be carried via the blood to the brain and carry out an essential antioxidant function within our brains. It took a long time for this property of ALA to be recognized and its consequent health benefits understood. It is, in fact, the ideal antioxidant. The substance provides many known benefits to the body due to its antioxidant properties and also helps the body to generate the maximum possible amount of energy from the blood glucose and thus improve the energy balance of your body.

However, it is with its antioxidant properties that we are most concerned here. One of the benefits of these properties is its effect in holding back the visible effects of aging on your body. Because it is both water and fat soluble, alpha lipoic acid can help destroy free radicals in every part of your skin; the areas served by the blood and the fatty and oily secretions are protected simultaneously by the same strong antioxidant. The end result is a reduction in the destruction of the cells through the dermis and epidermis and a reduction in the degree of wrinkling with age.

Its antioxidant effect in the brain renders ALA in great demand for reducing cognitive impairment with age. In fact studies have indicated that alpha lipoic acid can improve memory and brain function in the aging and the elderly. This effect appears to be increased by the synergistic combination of alpha lipoic acid and acetyl-L-carnitine that work together to prevent cognitive decline in the brain through the effect of free radicals.

There is evidence that during a stroke, ALA works synergistically with vitamin E to reduce the effect of free radical damage on the vulnerable brain cells, and so reduce the longer term effects of the stroke. Together with ALC, it also reduces oxidative stress on the mitochondria of cells and in so doing helps once again to reduce the effects of aging, and maintain the body’s capacity to generate energy from blood glucose.

Cardiovascular disease is the main killer of the western world, largely due to our diets, and this is especially true of the USA. Although Americans appear unable to change their unhealthy diet, alpha lipoic acid and acetyl-L-carnitine can be used to offset much of the damage done. ALA reduces the development of atherosclerosis through its antioxidant properties and the reduction of the adhesion of monocytes to the artery walls.

LDL trapped in the wall of the artery can be oxidized and enable monocytes to also enter under the surface of the arterial wall, where it changes into macrophages and ingests the oxidised LDL, causing the plaque that forms atherosclerosis. As the plaque thickens, the artery becomes increasingly restricted until the blood flow is significantly reduced or even stopped, causing cardiac failure or a stroke.

Alpha lipoic acid can prevent this free radical oxidation from occurring by destroying them before they act on the low density lipoprotein (LDL). Acetyl-L-carnitine works with the ALA to achieve this, as does another substance known as carnosine. Between them, these three musketeers work to keep your arteries clear and your brain functioning as it should, though it is the ALA that is most powerful due to its oil and water solubility properties.

Although alpha lipoic acid is available as a supplement, either alone or in combination with acetyl-l-carnitine, it is also available from natural food sources. It is particularly rich in offal such as heart and kidney, and also in broccoli, spinach and brewer’s yeast. It is also available in beef, and it is here that burgers can perhaps repay some of the damage that it causes. However, it is not a recommended source since burgers still cause more damage to your health than any of their constituent nutrients can allay.

Like any other supplement, you should seek medical advice before taking any substance if you have a health condition. Nevertheless, the benefits of alpha lipoic acid are such that it is difficult to see it doing anything but good. However, please consult your physician if are taking other drugs.

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Date: February 09, 2008 10:43 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: The Benefits of Ascorbyl Palmitate A Fat-Soluble Form of Ascorbic Acid

The benefits of ascorbyl palmitate are due to the substance being a fat-soluble form of ascorbic acid which is otherwise known as vitamin C. Before discussing why being fat-soluble should be of benefit, let us first have a look at what vitamin C does for us and what its limitations are.

Most people know vitamin C as the vitamin that prevents us from getting scurvy, and that limes and other citrus fruits were given to sailors to prevent them from contracting this often fatal disease on long journeys. However, important though the protection it provides against scurvy is, there are many more important uses for this important vitamin. In fact some of them are closely connected to the symptoms of scurvy.

Among these are pains and swelling in the joints, and the loosening of teeth and hair loss. Scurvy is also associated with easy bruising and bleeding. All of these can be associated with loss of collagen, which is contained in connective tissues, bone and blood vessels. Collagen repairs and maintains cartilage, heals wounds and is essential for proper skin formation and the structure of ligaments, tendons, blood vessels, bones, hair and teeth. When we consider that one of the most important properties of vitamin C is the part it plays in the production of collagen in the body, then its effectiveness in alleviating the symptoms of scurvy is not difficult to understand.

Vitamin C is also a strong antioxidant that destroys free radicals that kill and severely damage body cells, and cause a large variety of undesirable conditions such as atherosclerosis and cancers, and also debilitating and painful inflammatory conditions such as arthritis. Many free radicals are formed in the body as by-products of our metabolism: the generation of energy from fats and blood glucose. Others are ingested in the form of cigarette smoke and other toxins, while yet other free radicals are caused by the effect of sunlight on our skins. Natural antioxidants such as vitamins A, C and E help to keep these free radicals under control and minimize their effect.

Another interesting property of vitamin C is in the synthesis of carnetine, a deficiency of which is also thought to contribute to scurvy. Carnetine is needed by the body to transport fat to the cellular mitochondria so that it can be converted to energy. Vitamin C is also believed to take part in the biochemistry that converts cholesterol to bile acids and so helps to maintain a healthy level of cholesterol in the blood.

The vitamin is therefore a very useful one for the body, but it has one fault. It is water soluble, and hence cannot be stored in the body but is expelled in the urine. Had it been fat soluble it could have been able to be stored in the body fats, in the same way that vitamins A and E are, and be available for use when required. Instead any excess that is not immediately used is lost, and a fresh intake of ascorbic acid necessary on a continuous basis.

Not only that, but it is only of use in areas of the body that the blood can reach. Fatty tissue is practically devoid of vitamin C, and many areas of the brain cannot be reached by substances that are insoluble in oils and fats. It also finds it difficult to penetrate the skin and the walls of body cells. This is where the benefits of ascorbyl palmitate are useful.

Ascorbyl palmitate is a fat-soluble form of vitamin C and possesses all of the attributes of ascorbic acid. It is more easily absorbed by the body and can be stored in the membranes of the cells until needed. It is also a powerful antioxidant, the same as vitamin C, and is frequently used to prevent the oxidation of vegetables oils, such as on potato chips and other oily snacks. It also takes part in the biochemistry of the production of collagen and connective tissues.

The usefulness of this substance comes from not only from its amphoteric nature, whereby it has one end that is water soluble and another that is fat soluble, but also by the fact that it is also amphipathic, meaning that it prefers neither one medium nor the other, and tends to collect at phase boundaries, between oil and water phases. It is particularly effective in topical uses on the skin, because it is easily absorbed into the skin tissue, and more stable than some of the other forms of vitamin C. It is also believed to protect other fat soluble antioxidants such as vitamin E from oxidation, and also to help to protect blood cell membranes from free radical attack.

Although vitamin C is a very powerful vitamin, carrying out a multitude of tasks, ascorbyl palmitate has some advantages over it apart from the solubility difference. Its antioxidant properties are stronger than those of regular ascorbic acid and in fact rival those even of vitamin E, which it also helps to regenerate after its reaction with free radicals, and help to maintain a continuous supply of this powerful antioxidant.

It is also a chemically neutral form of the vitamin, and unlike regular ascorbic acid, does not cause inflammation of the tissues it comes into contact with. It can also reduce sunburn due to excessive exposure to UVB when applied to the skin, and is a very stable form of the vitamin. Ascorbyl palmitate also acts as an anti-inflammatory with certain conditions, such as psoriasis where topical application helped to reduce the extent of the lesions. In fact it appears to do most of what vitamin C does, but faster and with smaller doses.

So why is ascorbyl palmitate not used as the main form of vitamin C in supplements? The answer is money. Ascorbyl palmitate is considerably more expensive than regular vitamin C, and also normal ascorbic acid has some properties that the fat-soluble form does not have, such as its ability to rapidly pass through the body in the bloodstream.

However, it would make sense to take a supplement consisting of both forms of vitamin C, and so combine the best properties of each. Any vitamin C supplement that is designed for maximum effect on the body should contain at least 25% of ascorbyl palmitate, the balance being ascorbic acid. That is what to look for if you are to receive the combined benefits of both water and fat soluble vitamin C.

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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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Date: January 24, 2008 05:06 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Eighty Seven Percent of All Type 2 Diabetes Can Be Prevented Naturally

It is a fact that almost 90% of Type 2 diabetes can be prevented by attention to diet and the use of specific supplements. However, before having a look at these possibilities, we shall first have a look at what type 2 diabetes is so that the means of prevention can be better understood.

Diabetes is a condition, not a disease. It cannot be passed from one person to another, and there is evidence that it is hereditary since it tends to run in families. In the past it tended to develop later in life, although the modern lifestyle appears to have made it more common now in children and young adults.

Diabetes occurs when the level of glucose in your blood becomes higher than it should be. The reason for this is twofold: either the body produces no or insufficient insulin or it cannot use the insulin that is produced. Sugars and other carbohydrates are metabolized to glucose that is the body’s source of energy. The parts of your body that do this are the mitochondria that are contained within your body cells, and the hormone insulin is essential in allowing this to happen.

When the concentration of glucose in your blood reaches a certain level, the pancreas secretes insulin into your blood. The insulin is synthesized in special cells called the islets of Langerhans, after the person who discovered them. Also produced is glucagon which is also secreted into your bloodstream, and the glucagons and the insulin work together to ensure that your blood glucose levels remain stable (when everything is working correctly).

Glucagon is secreted when your glucose levels are low, and its presence in the bloodstream stimulates the conversion of the emergency energy store in the liver (glycogen) to glucose in order to maintain this stability. Insulin, on the other hand, is released after you have consumed a meal, and your glucose levels are high. What insulin does is to stimulate the cells of your body to convert glucose to energy and either use it immediately, or store it as glycogen for use later. By means of these two substances, the level of glucose in your blood is maintained at safe levels – normally.

If something happens to the supply of insulin, then the blood sugar level will continue to rise until the bloodstreams contains too much glucose, a condition known as hyperglycemia. The symptoms are excessive thirst, a frequent desire to urinate, fungal infections or thrush around the genital area (due to yeasts and sugar fermentation), and various others such as mood swings, cramps, dizziness and a feeling of tiredness and weakness.

Type 1 diabetes occurs when the body produces no insulin, and the only possible treatment is continual insulin injections. Type 2 diabetes is defined in two ways. Either your body does not make enough insulin for your needs, or the cells in your body cannot use the insulin produced properly. It is Type 2 diabetes we are concerned with here, and that we shall be exclusively discussing. With Type 2 diabetes, insulin shots can be provided, but there are other factors that can also help to resolve the problem.

Before discussion treatment or prevention, you should be aware of the complications that Type 2 diabetes can lead to. Hyperglycemia is not common with this type of diabetes, but it can develop. If it does then it can be a life-threatening condition needing a rapid injection of insulin into the bloodstream Symptoms prior to the critical stage are drowsiness and dehydration, although as stated, this is more commonly associated with Type 1 diabetes where regular insulin injections is the normal treatment.

Longer term complications of Type 2 include kidney damage, hardening of the arteries, eye problems, impotence and problems with your circulation. Nerve damage can also occur, and it is important that you avoid these by changing your diet and lifestyle. These problems occur if you have had high blood glucose levels over a long period of time, and you therefore have time to take the steps necessary to avoid them if you start now. The same steps will also help you to avoid the condition from occurring. So what are these steps you should take?

The first is to look carefully at your diet. A healthy balanced diet is essential if you are to beat your condition naturally and avoid the potential longer term side effects. Diabetes is associated with the overweight and obese. That is not to say that only these people become diabetic, but the majority are. Most people with Type 2 diabetes are overweight, and although around 65% of Americans are overweight or obese, a considerably higher proportion of those with Type 2 diabetes are overweight.

The first and obvious action to take to avoid this type of diabetes would therefore be to lose weight, and adopt a healthy diet that is free from junk food, trans fats and alcohol, all of which contribute to obesity. The next is to look to your blood pressure and keep it normal, and also to keep your low density lipoproteins (LDL) low. These affect the propensity for your blood cholesterol to deposit in your arteries, especially if they are oxidized by free radicals. A good antioxidant content is therefore recommended in your diet. Although blood pressure and high LDL levels do not directly contribute to diabetes, they are risk factors that could increase the risk to your health if you are diabetic.

You should eat a diet that is high in whole grains and fiber, and eat lean meats and fish rather than fatty foods. Stick to complex carbohydrates that metabolize to glucose slowly and steadily, rather than starchy foods that produce a sudden sugar rush that will give you problems and could promote Type 2 diabetes in those that are prone to it.

Specific supplements that you could take include chromium picolinate that can not only be used to treat existing diabetes patients but also to reduce your chances of developing Type 2 diabetes. Studies involving the use of chromium picolinate on patients with this type of diabetes have been very positive, resulting in reduced blood sugar, lipid and insulin levels. The optimum dosage is around 500 micrograms twice daily. Such treatment has been shown to both prevent and reverse Type 2 diabetes.

Magnesium is another specific supplement that studies have suggested can lower the risk of developing this type of diabetes. Magnesium rich foods have also been found to be effective, and the fact that a magnesium deficiency can lead to diabetes supports the findings that its use can help to prevent it. Green leafy vegetables such as spinach, and beans nuts and seeds are generally rich in magnesium.

Vitamin D can also help protect against the development of diabetes. Although the research is relatively new, it has been established that the cells that produce insulin are affected by a lack of vitamin D in the blood, and low levels of vitamin D can also led to insulin resistance. If you spend more time out in the sun, you should have less chance of contracting Type 2 diabetes, although you could also take a supplement.

Although Type 2 diabetes is not as serious as Type 1, no form of diabetes is desirable to have, and ultimately both types can be extremely serious. You should do what you can to avoid diabetes, and Type 2 is easier to avoid then Type 1. Diet, weight and supplementation as described above will all help to avoid contracting this condition, so follow the advice, especially if you are overweight and have a sweet tooth.

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Date: January 21, 2008 03:14 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Seniors Need More Than a Multiple with Only 100 Percent of the RDA

The aging process is a gradual one. That might seem obvious, and it is, but it is the fact that it is gradual that causes people not to notice the small but significant changes in their body that are taking place. Aging is more than just the oxidation of skin cells that cause them to wrinkle, but involves specific functional cell changes, such as their ability to multiply.

As this slows down the immune system is affected, and we find it more difficult to recover from injury and disease. Oxidation becomes more prevalent and free radicals become more common as the natural antioxidants of our bodies become overwhelmed. We are less able to recover from the effects of environmental stress, such as UV radiation from the sun, pollution and the effects of heat. We find it increasingly difficult to deal with a lack of nutrition or toxins in our food from pesticides. In short, we become less capable of dealing with attack by invaders, but do not notice this gradual lack of immune response.

Age also affects our joints from the vertebrae in the neck to the joints of our toes. The net result is a compression of the bones that causes a reduction in height. We also develop more body fat and less muscle tissue, which is a significant consideration in planning the nutritional needs of the elderly. However, of more critical importance when discussion the nutritional needs of our aging population is the possibility of malabsorption.

Malabsorption is an inability of the digestive system to absorb nutrients from food, and occurs in people of any age although it tends to be more prevalent in seniors. It is predominantly due to a dysfunction of the liver, the pancreas or the small intestine that are the three major physical components of the human digestive system.

The liver produces bile that is needed to process the fats in your food, and if the bile is not delivered to the small intestine, then malabsorption is possible. The same is true of the enzymes that are produced by the pancreas These enzymes are important components in the biochemistry that allow us to absorb nutrition from our food, and since most of this absorption occurs in the small intestine, this too is essential for proper absorption. When any of these three are reduced in efficiency, as they are with advancing years, then malabsorption will occur.

When this occurs in seniors, however, it is essential that a multiple supplement with more than 100% of the RDA (Rcommended Daily Allowance) is used. This type of nutritional deficiency can be very serious at an age when so many normal biochemical processes are slowing down, and it is important that steps are taken to avoid the serious problems that can arise.

The immediate symptoms of malabsorption are diarrhea and weight loss, although the more serious longer term effects are anemia due to a deficiency in folic acid and iron and a reduction in the blood’s ability to form clots due to a deficiency in vitamin K absorption. There are others, but not all problems associated with aging are actually due to malabsorption, or even with aging.

Many of the problems associated with aging are now believed to be connected with the patient’s lifestyle and diet. Heart disease such as atherosclerosis is now known to begin earlier in life, as are many other conditions once believed to be associated with age. A loss of cognitive ability can be age related, but also due to cigarette smoking and excessive alcohol consumption. However, irrespective of all this, it is essential that the aged are provided with vitamin and mineral supplements offering more than 100% RDA.

Calcium is of particular importance for older women who are particularly prone to osteoporosis due to malabsorption of calcium from their food. At least 1000mg daily should be taken, and extra magnesium and vitamins A and E will also be necessary since they are needed for the proper absorption of calcium. The extra does not infer that all of the supplement will be absorbed, but that enough should be to help reduce the possibility of bone density problems.

The elderly are particularly prone to vitamin B deficiencies, particularly of vitamin B12, due to absorption problems and a good vitamin B complex supplement is needed. Chromium too can be seriously depleted in the aged, and this mineral is necessary to enhance the activity of insulin. It is also believed to play a part in the metabolism of carbohydrates, proteins and fats. There are no known consequences of an excess of chromium so a good supplement can be provided. It is believed that vitamin B and chromium together are required for cardiovascular and neurological health that are so important as we age.

One important supplement for the elderly is Coenzyme Q10. Many older people are prescribed drugs such as statins for the treatment of high cholesterol levels. Statins work by depressing the biochemical synthesis of cholesterol by blocking the action of mevalonate, and this is known to interfere with the metabolism of Coenzyme Q10, otherwise known as ubiquinone.

CoQ10 is essential in allowing the production of energy within the cell mitochondria by allowing electron transfer back and forth between NAD and NADH to allow the production of adenosine triphosphate (ATP). A supplement of this important enzyme is therefore essential in maintaining the energy levels of the aged who are being prescribed statins.

Almost 20% of the elderly on prescription drugs are also taking herbal remedies and supplements, and there could be an interaction between them. Anybody taking prescription drugs should consult their physicians before taking natural remedies or any form of supplement, and this is particularly true of the elderly.

However, where the elderly are safely taking a vitamin and mineral supplement, it is extremely important that this contains more than just the RDA. Absorption problems are very common in the elderly, and this excess can make sure that they receive more than they would otherwise, if not the whole recommended dosage of the particular substance involved. Better safe than sorry, especially where an excess is not known to cause harm.

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Date: January 18, 2008 05:25 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Give Your Health A Boost With Silica Hydride A Powerful Antioxidant

Hydride ions are strong proton acceptors and hence fatal to free radicals. Silica hydride is consequently a powerful antioxidant that can be used to protect your body against the ravaging effects of these free radicals that destroy the cells of your body, and due to its other unique properties this is a molecule that could be a very useful participant in the various redox reactions that occur naturally within our bodies every microsecond of every day of our lives.

A free radical is a positively charged molecule that is deficient in an electron. Whereas stable compounds consist of electron pairs, a free radical consists of electron pairs and one unpaired electron. Although such a compound is not stable, it does not immediately disintegrate but grabs the nearest electron it can find. This would normally be an electron in the nearest body cell to it, whether it is a blood cell, a cell in an artery wall or a skin cell. The result is that the cell that loses the electron is disrupted.

Free radicals are formed in the body through its normal biochemistry, and also promoted by pollutants such as cigarette smoke, pesticides and traffic fumes. Excessive exposure to the ultraviolet radiation of sunlight or sunbeds also creates free radicals, as does excessive exercise, believe it or not. As stated earlier, these chemicals have only one purpose in your body: to grab an electron from wherever they can, and in doing so they destroy the cells that make up your body tissue.

This can lead to premature aging, heart disease and many other problems with your health. Antioxidants such as vitamins C and E are important parts of your diet, and silica hydride is an other supplement which has been relatively recently discovered to have antioxidant properties. A component of glacial streams, this substance is generally in colloidal form, or in the form of small particles maintained in suspension by the interaction of positive and negative charges on the surface of the tiny particles of which it consists.

The interface between the silica and water can be saturated with reduced hydrogen to form a surface that is overall negatively charged and can hence neutralize free radicals that are seeking the free electrons available from the negative charge. This is otherwise described as a reducing or anti-oxidant effect. All anti-oxidants play their part in neutralizing the properties of free radicals that result in the destruction of body cells.

This leads to premature aging of your skin, if a skin cell is affected, if it is a cell in your artery wall, then the artery will become damaged, and if a blood cell then you can suffer from any one of a number of abnormal blood conditions. The stealing of an electron from one molecule by another is scientifically termed 'oxidation', and the substances that prevent this from occurring are called antioxidants, or reducing agents.

An antioxidant will destroy free radicals by providing the extra electron, or chemically, a negatively charged hydrogen ion. This occurs practically instantaneously, in microseconds in fact, as soon as the free radical is formed, so you need a good supply of antioxidants in your body at all times. Free radicals do not roam your bloodstream looking for likely candidate cells to destroy – they do it right away with the nearest available, so antioxidants must be present at the time that the free radicals are created.

Other beneficial effects of such antioxidants are an increase in the potential for the mitochondria to generate energy within your cells, an increase in the hydration of body cells and a decrease in lactic acid build–up that occurs as the result of exercise. The negative charges of silica hydride atoms are very strong antioxidants and can dramatically increase the energy production of mitochondria. It has been shown to do so by up to six times in Chinese hamsters. There is more on this claim for such a significant effect on your energy production later.

In addition to its action as an antioxidant, silica hydride is an electron donor to other antioxidants that have been neutralized by reaction with a free radical. When antioxidants do their work they are not destroyed, but neutralized. They act by giving an electron to the free radical, and are then one electron deficient themselves. This could virtually turn them into free radicals also were it not for the other electron donors available. Silica hydride is one of these. Thus, Coenzyme Q10, another very powerful antioxidant, can have is potency regenerated by silica hydride. If you take a silica hydride supplement, you are not only taking an effective antioxidant, but also a substance that can recharge the batteries of other powerful antioxidants.

Another side effect of this substance is that the reacted hydrogen atoms can also be used in the body to maintain a slightly alkaline pH which is an additional health benefit. pH is a measure of the acidity and alkalinity of the body fluids, and should be maintained slightly alkaline, other than in the stomach where the digestive juices are strongly acidic.

Silica hydride is not essential to the body, so you cannot suffer from a deficiency of it. It is not known to be contained in any foodstuff or water source, and appears to be available only as a supplement. Consequently no optimum dosage has been determined, though the supplements available contain from 200 to 250 mg per capsule. Likewise, side effects from it are unknown since there have been few scientific studies carried out on it. It has, however, been described as the ‘perfect antioxidant’.

Some of the claims made for the substance include reducing lactic acid concentration during exercise. Lactic acid production during exercise causes tiredness and cramps, and silica hydride is said to increase the body’s production of adenosine triphosphate (ATP) a substance essential for the production of energy in your body. This is through the reduction of nicotinamide adenine dinucleotide (NAD) to the reduced form NADH as a part of glycolysis and the citric acid cycle. Glycolysis is the metabolism of glucose to energy by the mitochondria.

If the claim that silica hydride effects this reduction of NAD to NADH six or seven times stronger than normal were true, then it would indeed be a significant energy booster invaluable to most athletes.

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Date: January 17, 2008 01:16 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Bioflavonoids: Boost Your Brain and Circulatory Health

Bioflavonoids are most commonly praised for their antioxidant properties. They were first identified in the 1930’s by Albert Szent-Gyorgyi, Ph.D., a Nobel laureate. They are thought to prevent the breakdown of vitamin C in the body, and they also boast their own antioxidant capabilities. Over 5000 different bioflavonoids have been identified in nature. They are classified into categories including flavones, anthocyanidins, flavones, flavonols, isoflavones and flavans. Science is still discovering new types and their healing properties every day. The best part about them is that they are all natural and very powerful.

For example, scientists have been promoting the amazing benefits of the antioxidant found in dark chocolate. It is called epicatechin, and it is an excellent bioflavonoid for heart health. Studies show that it helps maintain healthy blood vessels. Antioxidants in dark chocolate are also believed to lower high blood pressure, according to a study published in the Aug. 27, 2003 edition of The Journal of the American Medical Association.

Rutin and quecertin, both found in red grapes, are also linked with a healthier circulatory system. A study conducted at the University of Wisconsin in Madison in 1995 found that “the antioxidant and platelet inhibitory properties of other naturally occurring compounds in the wine the consumption of flavonoid-containing foods and beverages may retard atherogenesis and prevent thrombosis on a daily basis.” Translated into common terms, the researchers concluded that bioflavonoid may slow artery and vein degeneration and prevent blood clotting.

The American Heart Association feels that this area of research is very promising. Their website states, “Phytochemicals are chemicals found in plants. Plant sterols, flavonoids and sulfur-containing compounds are three classes of micronutrients found in fruits and vegetables. These compounds may be important in reducing the risk of atherosclerosis, which is the buildup of fatty deposits in artery walls.”

As far as healthy brain function is concerned, bioflavonoid is thought to help with microcirculation in small vessels throughout the body. You might recall seeing ginkgo biloba in the news. It has been shown to improve memory with its powerful bioflavonoid in numerous studies. What makes ginkgo especially significant is that its bioflavonoids have a stronger potency than many other bioflavonoids, and it seems to have specific benefits in the capillary beds of the brain.

The National Center for Biotechnology Information recently reported the following on their website: “Flavonoids were shown to activate key enzymes in mitochondrial respiration and to protect neuronal cells by acting as antioxidants, thus breaking the vicious cycle of oxidative stress and tissue damage. Furthermore, recent data indicate a favorable effect of flavonoids on neuro-inflammatory events.” In other words, bioflavonoid is thought to help protect your brain cells from degeneration, and recent data shows that they may also reduce swelling.

Researchers are eager to discover all the healing properties bioflavonoids possess. Modern medicine is now faced with an all natural group of chemicals found in plant pigments that may prove to be effective in preserving brain function and promoting cardiovascular health. This is fantastic news for people that prefer natural supplements over expensive prescription pills. Current research shows that these chemicals have significant powers for enhancing overall health. In fact, many researchers advocate including bioflavonoid supplements in your daily health maintenance plan.

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Date: December 20, 2007 01:48 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Power Your Day With Natural Energizer's

If you tend to feel a bit tired now and again, there are plenty of natural energizers that you can use to power your day and provide you with that much needed energy to enable you to get going and keep going.

If you are suffering from chronic fatigue then you need something to get you going, and many people suffering from conditions such as fibromyalgia that can cause severe fatigue and very poor sleeping patters, need an energy booster each morning. It might not help the pain, but it will help their bodies to get moving and provide the energy required for everyday living.

Cordyceps

So what substances are available to help you energize yourself for what the day is to bring you? The Chinese use cordyceps, which is type of mushroom that truly could be describes as ‘magic’. It grows on the caterpillars of a type of moth and can improve stamina and endurance, and also regulate sleeping patterns. It is useful for the prevention of depression, and improves the function of your lungs and also of the adrenal function. A low adrenal function can lead to low blood sugar and loss of energy.

Energy is obtained from the cellular mitochondria that metabolize blood glucose into energy. Part of this metabolic process requires the presence of adenosine triphosphate (ATP). Coryceps is known to increase the ATP levels in human cells and so enable the mitochondria to generate more energy. It is used in China by those recovering from surgery or childbirth, and is known to replace the energy lost after heavy exertion.

Its added benefits to those suffering from sexual dysfunction are well known, and it appears to promote stronger blood flow to the extremities of the body. In Chinese medicine it replenishes yin and yang jing and is also a strong antioxidant. It is used extensively by athletes and people who expend a lot of energy while working and exercising.

Magnesium

A magnesium deficiency is rare in the western diet, but it can cause symptoms including fatigue, weakness, irritability, muscle cramps, insomnia stress and appetite loss. Your cardiovascular system is dependent on magnesium for its functioning, and it contributes significant to the strength of the heart muscle contraction and hence the blood flow.

It is also an important component of bone, and during times of stress its stores can be significantly depleted. It is when stressed, then, that most people might benefit from a supplement, and a general energy boosting supplement would also benefit from a small amount of magnesium to replace what is lost through stress. Many people needing a tonic to give them a start to the day might also be under stress for one reason or another, and a magnesium supplement will do them no harm.

Ribose

D-ribose is found in all living cells. It is an essential building block of DNA (deoxyribonucleic acid) and RNA (ribonucleic acid). DNA, of course, is essential to life while RNA is used in DNA replication. Ribose is responsible for providing energy to every cell in your body, and without it you would not exist. Athletes in particular believe that a ribose supplement increases stamina and endurance, and it is used to help speed up recovery of the heart after surgery and after heart attacks.

Ribose seems an excellent candidate to be included in any energizing tonic due both to its ubiquitous presence throughout the body and also because it is a sugar – a monosaccharide in fact, and hence simple and easily absorbed by the body.

Yohimbe

Yohimbe is obtained from the bark of a predominantly West African tree, and when ingested it releases an indole alkaloid called yohimbine into the bloodstream.

Yohimbine is a vasodilator, which means that it widens the blood vessels allowing a greater flow of blood to the extremities. This is one reason why it is also prized by those suffering from erectile dysfunction although it also claimed to be an aphrodisiac. However, as an energizer it is likely the increased blood flow that provides a greater supply of oxygen to the muscles that is the most important property. There are also several more alkaloids contained in yohimbe bark that likely have an effect on its energy enhancing effects on the body.

Guarana

Guarana is extracted from the seeds of the guarana shrub, native to South America, and Brazil in particular. The Amazonian natives use it in their food and drinks to improve their alertness and energy and its main benefits likely come from its caffeine content. This is about twice that of coffee beans, and it should therefore be used with caution.

An excess of caffeine can cause restlessness, tension and nervousness due both to the caffeine content (xanthines), and that of other alkaloids such as theophylline and theobromine. They not only enhance your alertness and energy levels but suppress appetite and increase your metabolic rate that results in an increased need for energy providing foods such as sugars. However, guarana is used by those needing a boost and makes a good energizer for those that find it difficult to keep both physically and mentally active throughout the day.

Bee Products

Bee products provide sugars in a natural form and are excellent and natural energizers for your whole body. Whether you use royal jelly, honey or any other of the bee products available as supplements, they will not only increase your energy levels but also provide you with many other health benefits.

From treating athlete’s foot to healing wounds and alleviating stomach ulcers, honey has many medicinal uses. It is an antioxidant and antiseptic, and can heal you of many conditions from head to toe, inside and out. Bee products are a must in any restorative or energizing tonic and are completely safe with no known side effects.

Each of the above six substances has its place as a natural energizer, and each could help to power your whole day. Put them together and you have an ultra-powerful mix of natural products that should enable you to meet any physical demands put on you. You are unlikely to come across such a combination of effective substances of course, but should make your choice of tonic from any or some of the above, and you can even use them in combination since they do not appear to interact with each other.

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Date: December 01, 2007 09:05 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: A Periwinkle Extract Vinpocetine May Promote Cerebral Blood Flow

Periwinkles form the plant genus Vinca, of which the lesser periwinkle and the greater periwinkle are the two members. They are also a form of dogbane, known for its alkaloid properties. Periwinkles are of interest to the medical profession due to their biosynthesis of a number of alkaloids that are used to protect themselves from bacteria and are also toxic to the herbivores that would otherwise eat them.

Many other plants produce alkaloids, perhaps the best known being poppy, that produces the alkaloid opium that is the precursor to heroin. The alkaloids of the periwinkle, however, have a much more beneficial use for mankind in their action on certain types of cancer such as Hodgkin’s disease, and also on the flow of blood to the brain.

The components of the periwinkle include vinblastine, which is used in the treatment of Hodgkin’s lymphoma, and it is the only plant known to produce the alkaloid, although only in very small quantities after synthetic seeding. This involves introducing modified tryptamines to the plant so that they produce the desired alkaloid, although only in quantities of 0.002% of the weight of the plant. Although small, this is still less expensive that synthesizing the alkaloid in a chemical plant rather than a biological one!

Chemists are now seeking more readily synthesizable alternative forms of the alkaloid that have the same effect, again using the periwinkle as a botanical chemical factory to provide them with a lead as to possible synthetic routes. However, it is for the application of another alkaloid of this amazing little plant that we are more concerned with here.

In addition to vinblastine, the periwinkle produces the alkaloid vincamine, a type of tryptamine that can be extracted from the leaves of the lesser periwinkle, the Vinca minor. This periwinkle has been used through the ages as an invigorating tonic and as an astringent to treat bleeding gums and sores in the mouth. Vincamine promotes the aerobic glycolysis that is essential to cerebral health.

Normal glycolysis, or the conversion of glucose to energy in the mitochondria of the cells of the body, occurs best in the absence of oxygen (anaerobic glycolysis). However, the brain produces up to and over 90% more energy through aerobic glycolysis in the presence of oxygen than through anaerobic. Hence one of the needs for such a rich supply of oxygenated blood being needed by the brain. As people grow older, or their brain tissue becomes damaged, then the supply of blood can be reduced and more and more anaerobic glycolysis is switched on. This results in an increasing loss of brain energy and hence brain function. Vincamine can reverse this effect, or at least maintain the status quo, and so enable people to maintain their brain function for longer.

It is also what is known as a vasodilator, and dilates the blood vessels in the brain allowing a greater blood flow. It is known to be beneficial in relation to tasks requiring focused concentration such as mathematical problem solving, and has also been found effective in the treatment of people with poor memory.

Vinpocetine (ethyl apovincaminate) is a derivative of vincamine, obtained by slightly modifying the molecule to produce a commercial form of the alkaloid. This possesses all of the beneficial effects of its precursor, including its positive effects on memory, believed to be due to the stimulation of serotonin production that improves the rate at which the brain can process information. Tinnitus, or ringing in the ears that has severely reduced the quality of life of so many people, can also be treated with vinpotecine.

Its vascodilation effect is thought to be through its action as a phosphodeaterase 1 (PDE1) inhibitor that results in an improvement in the plasticity of neurons. The mechanism is complex, but the end result is an improvement in the cognitive abilities of the subject. This is supplemented by the effect of vinpocetine on the calcium levels in the blood vessels. This renders them more plastic in much the same way that some anti-hypertension treatments work to reduce blood pressure by increasing the plasticity of the blood vessels by modification of their calcium levels. It can also reduce the viscosity of the blood through its action on the “stickiness” of leucocytes and so allow the blood to run more freely through the capillaries of the brain.

These effects have been demonstrated through double blind studies, and there is little doubt that vinpocetine helps to maintain a healthy cerebral circulation. So let’s have a recap on its various effects, and then finish with a summary of the conditions that the alkaloid can be used to treat or improve. The theory and biochemistry behind these effects is known, but is complex, but here are the major actions:

a) It improves blood flow by modifying the calcium content of the blood vessels and so improves their elasticity, hence allowing a freer movement of blood. In effect it helps the blood vessels to dilate easier.

b) It inhibits the enzyme PDE1 and by doing so helps to restore the elasticity of neurons in aging brain cells, allowing them to relax more and operate more effectively.

c) It promotes aerobic glycolysis, and so the rate at which the mitochondria of brain cells produce ATP (adenosine triphosphate) that is the chemical manifestation of energy.

d) It helps to maintain a good supply of glucose and oxygen in the brain to allow (c) to occur.

Not all of these may be separate effects, but the outcome is an improvement in conditions such as short term memory loss, dementia and other conditions associated with a reduction in the blood supply to the brain including Menière’s syndrome and vertigo. There is also evidence that it helps with hearing problems, macular degeneration of the eye, and fatigue.

It is a supplement that should be taken by the elderly to help with age-related memory problems, but has also been found to be beneficial in normal healthy people. The periwinkle extract Vinpocetine has been shown to have benefits, largely through an increase in the blood flow to the brain, and will be of use to anybody suffering from conditions that can be related to a deficiency in their cerebral blood supply.

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Date: November 30, 2007 03:40 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Kaneka QH - Ubiquinol

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Date: October 24, 2007 11:37 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Ubiquinol

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Date: July 07, 2007 01:30 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Active Coenzyme Q10

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Date: May 18, 2007 01:06 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: The Awesome Foursome: Coenzyme Q10, D-Ribose, L-Carnitine, and Magnesium

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Date: April 21, 2007 01:57 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Scientific Method of Evaluating the Effectiveness of Natural Medicines

Author Dale Ericsson, M.D.; Shinian Cao, M.D.; Fred Crawford, Ph.D; Dale Haufrect, M.D. and Tommy E Hall, Jr.; USA

Introduction

It has been traditionally assumed that long chain mucopolysaccharide and other natural ingredients found in aloe vera are active only in aloe vera are active only in their unadorned and non-modified state. There is little scientific evidence, however, to support this conclusion. In fact, certain isolated components of aloe vera have pronounced specific pharmaco-therapeutic effects. The purpose of this series of experiments is to evaluate this unique method of scientifically evaluating biological and herbal products and to specifically compare fractionally distilled aloe preparation from a traditional ale preparation.

Conclusion

Utilizing the scientific method of white blood cell (T lymphocyte) culture, stimulation and metabolic turnover rates of more than 25 substances it was determined that:

1. the pivotal study had demonstrated that this type of T lymphocyte cell culture metabolic analysis is useful for evaluation the safety and efficacy of a variety of treatments in which there is only antidotal or clinical studies to support the therapeutic effect.

2. This technique of single blinded study has been employed to define the efficacy as well as compare fractionally distilled aloe vera (warren Aloe) and a traditional aloe vera product. Application of this type of blinded study to two different forms of aloe vera showed that the following conclusion may be expressed with certainty.

• Fractionally distilled aloe (Warren Aloe) of Aloe vera breaks apart the long chains of mucopolysaccharides. These long chains prevent maximum effect.
• These shorter chains are then more effective in statistically increasing activity of cell cultures in the following manner.
• Fractionally distilled Aloe produces virtually the same cellular metabolic responses as found with natural Aloe juice.
• Mitochondrial stimulation with increased fructose turnover appears greater in those patients while taking fractionally distilled aloe, while at the same time the insulin/glucose interaction is about the same with both aloe preparations.
• There appears a decreased calcium, magnesium and zinc metabolic turnover in those patients on natural aloe juice.
• Alpha lipoic acid turnover is decreased in patients taking natural aloe juice.

This data suggest that the fractionally distilled Aloe vera is bio-pharmaceutically active and provides specific changes in T cell cultures when compared to baseline and with natural aloe vera juice.

This information has been condensed. For entire report refer to EXPLORER! For the processional magazine; volume thirteen: number Two: Pages 15-19.

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

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Date: March 26, 2007 02:05 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Supplements good for reducing stress and boosting energy!

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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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Date: February 06, 2007 12:57 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: For Better Heart Health ...

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