Search Term: " INJURED "

	Can the Liver Be Repaired Once It Is Damaged?	Darrell Miller	4/29/22
	Natural home remedies for burns	Darrell Miller	5/6/19
	What is liver cirrhosis? (and is alcohol always the cause of it?)	Darrell Miller	5/2/19
	What Happens to Our Bodies in Space?	Darrell Miller	6/20/17
	Protein and carb intake post-exercise can benefit bone health, study finds	Darrell Miller	2/21/17
	How Does Nattokinase Improve Blood Flow?	Darrell Miller	7/25/15
	What Is Gelatin Powder Good For?	Darrell Miller	1/29/14
	Facts about Astaxanthin	Darrell Miller	10/22/13
	Does Curamin work?	Darrell Miller	12/22/12
	Can Tea Tree Oil Reduce Scarring?	Darrell Miller	9/16/11
	Pumpkin Seed Oil	Darrell Miller	9/15/09
	Thrombophlebitis	Darrell Miller	4/15/09
	Pain Relief	Darrell Miller	6/13/08
	Are Inflammation, Immunity, And Allergic Reactions A Role For Supplements?	Darrell Miller	11/10/07
	Safe Solutions for Chronic Pain	Darrell Miller	3/30/07
	How Does It Work?	Darrell Miller	7/8/06
	Super Powerful Anti-Oxidants: Acai fruit, Green Tea, Mangosteen, Noni Fruit, and Pomegrana	Darrell Miller	7/7/06
	Dr. Verghese, M.D. Liver Detoxifier & Regenerator Fact Sheet	Darrell Miller	12/7/05
	THE ACTION OF SILYMARIN ON THE LIVER	Darrell Miller	7/12/05
	SUMMARY OF SPECIFIC ACTIONS ASSOCIATED WITH CAPSICUM	Darrell Miller	6/23/05
	Gotta Habit	Darrell Miller	6/14/05
	Garlic for the Ages - eat garlic because it's good for your heart...	Darrell Miller	6/13/05
	Summer Sports Nutrition Guide	Darrell Miller	6/11/05
	Cross Training	Darrell Miller	6/10/05
	Heart Science - A Five-Tiered Approach to Heart Health ...	Darrell Miller	6/2/05
	Important Information for Allergy Sufferers	Darrell Miller	5/13/05

Date: April 29, 2022 11:33 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Can the Liver Be Repaired Once It Is Damaged?

https://vitamins.vitanetonline.com/wp-content/uploads/liver-2934612_1920.png The liver is a vital organ in the body that performs many essential functions. It can be damaged by a variety of factors, including disease, alcohol abuse, and exposure to toxic chemicals. Once the liver is damaged, can it be repaired? In this article, we will explore the answer to that question. We will also discuss the various ways that the liver can be damaged and how those damages can be repaired.

What is the liver and what does it do?

The liver is a large, multi-functional organ that plays a vital role in the body. Its primary function is to filter the blood and remove toxins, but it also helps to regulate metabolism, store nutrients, and produce bile. The liver is divided into two main lobes, the right lobe and the left lobe. The right lobe is slightly larger than the left lobe and includes the quadrate lobe and caudate lobe. The left lobe contains the left lateral section and the medial section. The hepatic veins drain blood from the liver and pass it through the inferior vena cava to be returned to the heart. The hepatic arteries supply oxygenated blood to the liver tissue, while the portal vein carries nutrient-rich blood from the digestive organs. The bile ducts transport bile produced by the liver cells to the gallbladder, where it is stored until needed for digestion.

The liver is a hardworking organ that performs many crucial functions in the body. By keeping it healthy, we can help to ensure that our entire body remains healthy and functioning properly.

What can damage the liver and how does that damage occur?

The liver is a vital organ that performs many important functions, such as filtering toxins from the blood and producing bile to help digest fats. However, the liver can be damaged by a number of different agents, including viruses, alcohol, and certain medications. Viruses such as hepatitis C and hepatitis B can cause inflammation of the liver, which can lead to scarring and eventually to liver failure. Alcohol abuse is also a major cause of liver damage, as it can lead to fatty deposits, inflammation, and scarring. In addition, certain drugs (such as acetaminophen) can cause toxic damage to the liver cells. If the liver is not functioning properly, it can result in a build-up of toxins in the blood, which can lead to serious health problems.

Can the liver be repaired once it is damaged, and if so, how is that done?

The liver is a amazing organ. It is responsible for so many important functions in the body, from filtering toxins to producing bile to breaking down fats. When it is damaged, it can often repair itself. This is because the liver has a high regenerative capacity. hepatocytes, which are the main type of liver cell, can divide and grow back quickly when necessary. In fact, as long as about 25% of the liver remains healthy, it can regenerate itself completely over the course of a few weeks. There are a number of ways to damage the liver, such as through alcohol abuse or viral infections, but fortunately there are also ways to help it repair itself. Eating a healthy diet, getting enough exercise, and avoiding toxins, take liver supporting supplements like milk thistle and NAC can all support liver health and regeneration.

How can people prevent their livers from being damaged in the first place?

The liver is a vital organ that plays an important role in metabolism. However, the liver can also be easily damaged by alcohol, drugs, prescriptions, and environmental toxins, which are in the foods we eat. To help prevent liver damage, it is important to avoid excess alcohol consumption or avoid it all together, take medication as directed and if you are on medications that cause liver damage to discuss alternatives that do not harm the liver, and eat a healthy diet along with taking liver supporting supplements. Additionally, it is important to get regular exercise, as this helps to keep the liver healthy and functioning properly. By taking these steps, people can help to prevent liver damage and keep their organs healthy.

Are there any lifestyle changes or supplements that can help improve liver function even if it has been damaged already?

Liver damage is a serious concern for many people, as it can lead to a number of health problems. While there is no guaranteed way to reverse liver damage, there are some lifestyle changes and supplements that may help improve liver function. One potential change is to limit alcohol consumption, as alcohol is known to be damaging to the liver, mixing alchol and drugs can enhance the progress of liver damage. Additionally, eating a healthy diet and exercising regularly can help improve overall liver function. There are also a number of herbal supplements that are thought to be beneficial for the liver, such as milk thistle and dandelion root. However, it is important to speak with a healthcare provider before starting any new supplement, as some may interact with other medications.

What are the possible consequences of not repairing a damaged liver?

Liver damage can have serious consequences if left untreated. Depending on the cause, there may be a variety of negative effects that result from an INJURED liver. For example, if the damage is due to excessive alcohol consumption, then scarring and inflammation of the liver tissue can interfere with its ability to filter toxins out of the blood. This can lead to a host of potentially dangerous health problems, including nausea, chronic fatigue, jaundice, and cirrhosis. You must address the cause before change for the good can happen. In addition, unresolved inflammation can increase one's risk of developing more serious conditions such as cancer or heart disease. To prevent these possible consequences, it is important to seek medical attention as soon as possible after suffering from liver damage. This will allow doctors to properly diagnose the issue and develop an appropriate treatment plan. Addressing the cause is always preferable over simply treating symptoms alone. Ultimately, taking action now can help you protect your health in the future.

How can people find out if their livers need repair and where they should go for help if that is the case?

When it comes to liver health, there are a number of ways to find out if your liver needs some repairs. One method is to get tested for elevated liver enzymes, which are indicative of problems with the organ. You can also watch out for certain symptoms, such as fatigue, bloating or skin discoloration. If you notice any of these markers, you may want to consult with your doctor or a specialist in liver disease, who can help determine the best course of action. Depending on the underlying cause of your liver problem, treatment options may include changes to your diet and exercise habits, medications or even surgery in extreme cases. Whatever route you choose, it is essential that you address any issues with your liver as soon as possible in order to protect your overall wellbeing.

Generally, symptoms only show when liver function has dropped significantly.

Liver damage can often go undetected until it has reached a advanced stage. This is because the liver has an incredible capacity for regeneration and can continue to function even when up to 75% of it has been damaged. As a result, symptoms of liver disease often only become apparent when the organ has been severely compromised. By that point, the damage may be irreversible and serious complications may have developed. Therefore, it is important to be aware of the early signs of liver damage so that treatment can be started as soon as possible. These include fatigue, weight loss, abdominal pain, and yellowing of the skin and eyes.

Fortunately, Supplements like Milk thistle and NAC may help the body assist the liver in its repair.

The liver is a hardworking organ that is constantly exposed to toxins. As a result, it is susceptible to damage. Fortunately, supplements like milk thistle and NAC may help the body assist the liver in its repair. Milk thistle contains silymarin, a compound that helps to protect the liver from damage. NAC is an amino acid that helps to remove toxins from the liver. NAC also helps to replenish glutathione, a substance that plays a key role in liver detoxification. Together, these supplements can help to keep the liver healthy and functioning properly.

Whether you are looking for preventative measures to protect the liver or have an existing issue, it can never hurt to take either milk thistle, NAC, or both to support healthy liver function.

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Date: May 06, 2019 03:02 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Natural home remedies for burns

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Date: May 02, 2019 11:59 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: What is liver cirrhosis? (and is alcohol always the cause of it?)

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Date: June 20, 2017 11:14 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: What Happens to Our Bodies in Space?

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Date: February 21, 2017 04:59 PM
Author: Darrell Miller (support@vitanetonline.com)
Subject: Protein and carb intake post-exercise can benefit bone health, study finds

Part of my current employment requirements are that I remain physically fit and after particular tough workouts I will drink protein shake but had no idea that it could benefit my bone health. Avoiding injury is going to be important as I have noticed when I get INJURED now I do not bounce back as quickly as I use to.

Protein and carb intake post-exercise can benefit bone health, study finds

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Date: July 25, 2015 09:07 AM
Author: Darrell Miller
Subject: How Does Nattokinase Improve Blood Flow?

An enzyme is a protein that speeds up complex biochemical reactions in the body.  Enzymes are substrate-specific catalysts that accelerate these chemical reactions by converting substrates into simpler products.  Nattokinase is an enzyme which is extracted from a traditional Japanese delicacy called Natto.  Natto is basically boiled soy beans that have been fermented using a bacterium known as Bacillus natto.  When the bacteria act on the boiled soy beans, Nattokinase is produced.  This is the only method of preparation of natto that results in the production of this enzyme.

Many people may not be fond of the nutty flavor and sour taste of natto, but this is probably one of the world’s healthiest foods.  Its potency lies in the fact that it contains Nattokinase.  Nattokinase was discovered by Dr. Hiroyuki Sumi who was searching for the ultimate natural blood thinner and clot-buster.  If he found one, it would be a one of a kind thrombolytic agent that would help in the fight against stroke and heart attacks associated with blood clotting.  His Eureka moment came in 1980 when he placed natto in a Petri-dish with a thrombus (blood clot). The clot dissolved completely within 18 hours.

The process of blood clotting occurs naturally when a blood vessel is INJURED.  This happens to stop the bleeding; else we would bleed to death.  However, sometimes blood clots form in the blood vessels even when a person is not INJURED.  This poses a great risk as it disrupts the smooth flow of blood.  It may block a blood vessel and in a worst case scenario, travel to the heart and gets lodged there.  This is where the potency of Nattokinase is best applied.  As an excellent and natural clot buster, Nattokinase will dissolve existing blood clots and even prevent them from forming in the first place.  Another overlooked problem that often results in high blood pressure and heart disease is hyper viscosity.  This thickening of the blood results in a sluggish blood flow – it increases the risk of clot formation and it overworks the heart.  Nattokinase benefits helps reinforce the actions of the body’s anti-clotting agent – plasmin.  It prevents this abnormal thickening of blood hence promoting improved blood flow.

References:

//www.ncbi.nlm.nih.gov/pmc/articles/PMC3879341/

//www.smart-publications.com/articles/nattokinase-powerful-enzyme-prevents-heart-attack-and-stroke

Read More

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Date: January 29, 2014 04:54 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: What Is Gelatin Powder Good For?

What is Gelatin?

Gelatin is a protein, made from the hydrolysis of collagen, a protein that makes up about a third of all mammalian tissue proteins and the connective tissues of the body. Collagen makes up the tendons of the body muscles. Gelatin powder is gelatine that has been dried and broken up into individual grains, which has the advantage of dispersing more easily throughout a dish.

Health Benefits of Gelatin Powder

Gelatin powder has many health benefits.It is a source of protein and dietary collagen. It is composed of two amino acids-proline and glycine which many people do not consume adequately. This is because the amino acids are contained in organs of animals, fibrous tissue and in bones which a large population do not consume more often. These amino acids are important for proper hair, skin and nail growth.

Gelatin powder helps in the recovery of joints when INJURED. Gelatin also provides building blocks for health joints. It has been noted that people with arthritis, joint pain and osteoporosis will see their situation improve when they take gelatine rich foods and supplements.

It improves digestion as it binds to water making food move easily through the digestive truck. In this case the gelatine powder is usually used in form of a homemade bone broth. It supports hair, skin and nail growth. It will again protect your skin from wrinkles as your skin ages.

Glycine which makes the large percentage in gelatine powder helps in speed wound healing and acts as an anti-inflammatory. It also improves sleep ease and quality. Believe it or not, it can also be used for weight loss. This is because it boosts metabolism when taken.

Gelatin powder is used to naturally balance hormones in the body. High amounts of hormones like oestrogen in the body can cause infertility, inflammation and accelerate aging.

Finally, gelatine is a cost-effective and nutritious way to get proteins in to your body.

References:

1. Answers.yahoo.com
2. www.thankyourbody.com
3. Britishfood.abot.com
4. Wellnessmama.com

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Date: October 22, 2013 10:47 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Facts about Astaxanthin

 Astaxanthin is said to be a carotenoid which belongs to larger class of phytochemicals which is known as terpenes. It is built up of five carbon precursors. It is a metabolite of canthaxanthin and zeazanthin which contains both ketone and hydroxyl fuctional groups. Astaxanthin is a lipid-soluble pigment and is colorful. The color of it is due to the extended chain of conjugated double bonds which is also responsible for the astaxanthin’s antioxidant function. It is found in feathers of some birds, yeast, trout, shrimp, crustaceans, crayfish, krill, salmon and micro algae. The red color of cooked shellfish and red color of salmon is due to the presence of astaxanthin.

How Astaxanthin Helps the Eyes?

When astaxanthin is combined with omega-3 fatty acids and Vitamin E then it helps the eyes to recover the watery condition and it lubricates it too. It helps the eyes to absorb Vitamin E by which it then nurtures and feeds the choroid and optical nerve which is behind the retina. This is the place where the blood vessel enters in to and leaves and this is the place where communication between retina and brain are established. The macula is protected by astaxanthin by its antioxidant activity and it also helps in eliminating the free radicals. It helps in reducing the risk of cataracts and AMD. It also helps in preventing the eyestrain and it also decreases its effects. The inflammation in the muscles of the eyes is decreased by it and it also improves the blood flow of the eyes.

Health Benefits of Astaxanthin

It is considered as a strongest natural antioxidant which crosses the brain-blood barrier and protects the nervous system and brain, works in every part of skin, organs and body, crosses the retinal-blood barrier and thus protect the eyes and it reaches inside and out of every part of the cell. It also helps in repairing the INJURED tissue.

References: 

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Date: December 22, 2012 11:00 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Does Curamin work?

The Big Question: Does Curamin work?

Well, this herbal supplement is a quick, natural and safe pain reliever, which has been proven to work. Moreover, the composition does not have any side effects on the body. It enhances the defense mechanism of the body against any inflammation. 

Curcumin (Inflammation Management)

The main ingredient of Curamin, Curcumin enhances the anti-inflammatory components of the body and works as the immune system's modulator. This implies that whenever you consume Curamin, it renders long term effects on the body, thereby controlling oxidative stress. 

Nattokinase (Circulation and Inflammation)

Curamin contains an enzyme referred to as Nattokinase, which helps the circulation of the body and thus nutrients reach all corners of the body. Therefore, whatever part of the body might be affected, you can experience results after a few minutes of consumption. Similarly, waste products are also removed from one's body via excretory system much more efficiently. Nattokinase balances the fibrinogen level, meaning the muscles are repaired quickly when they are INJURED as a result of heavy muscular strain. Curamin has

DLPA (Mood Enhancer)

DLPA amino acids which hinders the breakdown of enkephalins. Enkephalins are often associated with moods. Therefore, you'll never have irritating feeling while undergoing stress and pain anymore. You can carry out your daily activities or even have happy moments with your family during the pain and inflammation.

5-LOX (Inflammation Trigger)

Most inflammations are triggered by uncontrolled behavior of the inflammatory enzyme, known as 5-LOX. This formula helps turn off the 5-LOX enzyme.

Boswellia (Anti-inflammatory Herb)

Curamin contains Boswellia serreta extract, a beta-boswellic acid, which hinders this enzyme's activity. Inflammation can be triggered by several factors. To handle all these factors, Turmeric: Curcumin longa is included in the Curamin. Curcumin longa, extracted from turmeric, is a great antioxidant. Inflammation and pain are common in life and they usually draw you back from having a stress free life. This is where Curamin comes in handy by offering the much needed relief to get rid of pain from your daily life.

Curamin Has a money back guarantee if it does not work by the end of the bottle send it back for a refund. 

We offer free shipping and a $5.00 coupon on each bottle of curamin purchased.

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Date: September 16, 2011 03:50 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Can Tea Tree Oil Reduce Scarring?

Overview

Scarring can be traumatic for any person and yet it may be a source of pride for others, in fact many native cultures in the world that is still left untouched by the modern world still has scarring as part of decorating their bodies. However we also need to look at it in a different view, it is a fact of life that we do not live in a native world, we need to adhere to common beliefs in terms of what beauty is and let’s face it, being full of scars is not something that many people look for and deem as beautiful.

How does it happen?

The formation of scars is a natural process. It simply is our body healing itself after injury. The main difference though is that when the skin is the part of the body that is INJURED it leaves a mark that we can see and I say that because like all healing processes in the body their always is a small mark left and the problem never really gets completely repaired unless the injury happens while you are very young or if you have amazing regenerative gifts. There are a lot of factors that could influence scars and of course depth and size of the injury are the ones that play a major role in shaping the scars characteristics.

Types of Scars

First and most common are Keloid scars. This is a result of a very aggressive healing process by the body and in some cases it even can affect mobility as it extends beyond the normal wound or injury. Second would be Hypertrophic scars. These types of scars are a little similar to keloid but the main difference is that it does not extend out of the injury zone but in terms of look and texture it is very similar to keloid. The third are contracture scars. This is commonly caused by the burning of the skin. It also has the ability to impair your mobility as this has a characteristic of going deeper into your muscles and nerves to impede its functionality. Lastly you have the scars that result from acne and which is appropriately named as acne scars.

Tea Tree Oil and Scars

This oil has been known to have wondrous effects to the health with even just one drop. Studies have shown that the use of Tea Tree Oil or also known as meleleuca alternifolia on scars is one of the most effective ways to aid in the treatment of scars. Its strong cell regenerative properties are what makes tea tree oil important and potent in healing scars. It also could help in preventing other skin problems and acne.

Another reason why it is so effective is it has a natural antiseptic effect for skin infections and problems and it is able to penetrate the epidermis to do its healing from within which adds to its potency. Plus, the best thing about it is that, it is mild on the skin, it does all this without any side effects that other skin treatments has like drying the skin or causing minor irritations.

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Date: September 15, 2009 11:15 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Pumpkin Seed Oil

The word pumpkin comes from the Greek word pepon, which means large melon. This word was adapted by the French to pompon. Then, the British changed to pumpion and the American colonists later changed that to the word that we use today. The origin of pumpkins is not definitely known. However, they are thought to have originated in North America. The oldest evidence of pumpkins dated back to between 7000 and 5500 B.C. in Mexico. The pumpkin is a squash-like fruit that ranges in sizes of less than one pound to over 1,000 pounds.

Because some squash have the same botanical classifications as pumpkins the names are often used interchangeably. Pumpkins generally have stems that are more rigid, pricklier, and squarer than squash stems. Squash stems on the other hand are more often softer, more rounded, and more flared when joined to the fruit. Generally, pumpkins weigh somewhere between nine to eighteen pounds, although the largest species is capable of reaching a weight of over seventy-five pounds. The shape of the pumpkin varies greatly, ranging from oblate through oblong. Even though pumpkins are generally orange or yellow, some are dark green, pale green, orange-yellow, white, red, and gray. Pumpkins have bright and colorful flowers that have an extremely short life span. Some may only open for as short a time as one day. The color of pumpkins comes from the orange pigments that are abundant in them.

The pumpkin is associated with autumn holidays such as Halloween and Thanksgiving in the United States. Generally, the seeds are thrown away as waste. However, pumpkin seeds and their oil possess great beneficial properties. There are especially for ridding the body of intestinal parasites.

Research has determined that various squash, including pumpkin, have great parasite-fighting capabilities. Although scientists are not exactly sure which compound in pumpkin seeds is responsible for expelling the worms, the seeds are known for their ability to do so quickly and safely. They are even safe for children. Pumpkin seeds work best when a laxative is taken an hour after they are used.

Pumpkin seeds are used to strengthen the prostate gland. They are also great for promoting male hormone function. They have long been used to treat an enlarged prostate. Myosin, which is found in pumpkin seeds, is known for its ability to be essential for muscular contractions.

One can apply the oil of the pumpkin seed to wounds, burns, and chapped skin. This helps to soothe and help heal INJURED skin. The seeds and oil of the pumpkin plant are used to provide anthelmintic, demulcent, diuretic, nutritive, parasiticide, and mild purgative properties. The primary nutrients found in this herb are amino acids, beta-carotene, magnesium, zinc, essential fatty acids, vitamin E, and carotenoids. Primarily, pumpkin is extremely beneficial in treating intestinal problems, parasites, and tapeworm.

Additionally, this herb is very helpful in dealing with burns, gastric disorders, nausea, prostate problems, roundworms, chapped skin, uterine problems, and wounds. In order to obtain the best results when supplementing with this, or any herb, it is important to consult your health care provider before beginning any regimen while on prescription medications. For more information on the many beneficial effects provided by pumpkin, please feel free to consult a representative from your local health food store with questions.

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

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

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

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

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

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

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

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

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Date: June 13, 2008 12:18 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Pain Relief

DL-Phenylalanine has been found to work in conjunction with the body’s natural ability to relieve pain. It helps to lengthen the lifespan of the chemicals in the brain that ease pain. It is especially effective in relieving pain from arthritis and aching muscles.

Some chronic pain can be treated with DL-phenylalanine through the stimulation of nerve pathways in the brain that control pain. Enhanced pain relief has been discovered when D-phenylalanine is used in conjunction with prescribed pain killers. This manufactured form of phenylalanine is used to block an enzyme in the nervous system that increases pain signals. The interruption of pain signals allows the healing mechanisms of the body to begin working faster.

DL-Phenylalanine is a chemical combination of half L-phenylalanine and half D-phenylalanine. L-Phenylalanine is the natural form of phenylalanine found in proteins all over the body. It is found in foods like beef, poultry, pork, fish, eggs, milk, yogurt, cheese, nuts, seeds and certain soy products. D-Phenylalanine is a synthesized form of the chemical, which means it is produced in a laboratory.

Phenylalanine as an Amino Acid:

Amino acids perform various major functions in the body. They assist in fulfilling the body’s basic needs from minerals and vitamins. They can act as neurotransmitters, which carry signals to and from the brain. They also aid in other parts of the body for communication between nerve cells.

Phenylalanine is one of the essential amino acids found in protein. This means it is required for human health, but cannot be manufactured by the human body. Therefore it has to be supplied through food consumption. It can also be found and taken in the form of powder, capsule, tablet or a topical cream. In the body, phenylalanine is converted into tyrosine, which is another amino acid needed to make protein. It is also needed to make certain brain chemicals and thyroid hormones. Phenylalanine deficiency signs include:

* Confusion
* Decreased alertness
* Lack of energy
* Diminished appetite
* Decreased memory

Phenylalanine Warnings:

A rare disorder called phenylketonuria (PKU) happens in humans who are missing the enzyme required to metabolize phenylalanine. Symptoms of this disorder tend to appear between the ages of 3-6 months. These include:

* Eczema
* Developmental delay
* Abnormally small head circumference
* Hyperactivity

If PKU is not treated within the first three weeks of life, it can cause severe and irreversible mental retardation. Women who are pregnant or nursing should avoid taking phenylalanine as a supplement in any form. DL-Phenylalanine may cause hyperactivity, jitteriness and anxiety in children.

Phenylalanine is the major ingredient in the artificial sweetener known as aspartame. Products containing this sweetener are required by law to carry warnings on their labels for phenylketonurics. People who have PKU can be severely INJURED by ingesting the sweetener. Products containing this artificial sweetener include diet sodas, sugarless gums and some sugar substitutes. Some sugar-free versions of Jello, puddings, ice creams, candies and various other items also contain aspartame.

Other Phenylalanine Uses:

Some individuals have reported that taking DL-phenylalanine has improved their mood and aided in treating depression. This is the result of a higher rate of production of the brain chemicals dopamine and norepinephrine. These chemicals, when out of balance, cause depression, stress and frustration. Elevation of the levels of these chemicals have an anti-depressant effect in the body.

One study suggests that D-phenylalanine has been shown to improve some symptoms associated with Parkinson’s disease. These include: depression, rigidity, walking problems and speech problems.

The combination of L-phenylalanine and UVA radiation may be used to treat the symptoms of vitiligo. This condition involves de-pigmentation (white patches) of skin. The use of L-phenylalanine may help to re-pigment these patches, but further study is necessary.

DL-Phenylalanine has many uses and benefits if taken correctly. As with any new dietary supplement, consult your physician before beginning a new routine.

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Date: November 10, 2007 11:29 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Are Inflammation, Immunity, And Allergic Reactions A Role For Supplements?

Inflammation, immunity diseases and allergic reactions are all connected with your immune system, and the way the body reacts to what it considers to be foreign invaders that are a risk to your health. Although you may not understand that all three have the basic underlying cause, in fact they do, and here is why.

Inflammation manifests as pain and swelling in the inflamed area, and not only can the area also get hot, but it can also raise your temperature in general, commonly called a fever. Fever is the body’s way of raising temperature above that at which foreign organisms such as bacteria and viruses can live, so any inflammatory condition that results in fever by definition must be an immune response through the body trying to eliminate foreign invaders.

If your body gets INJURED in any way, your immune system responds, and usually calms down again if decides that the injury is not serious. Your immune system is actually initiated by what are known as pro-inflammatory hormones, such as prostaglandins that stimulate the nerves to signal pain and swell the blood vessels close to the injury to make room for the large white blood cells when they arrive. That also allows blood and plasma to rush out and cause swelling at the site of the injury. Other prostaglandins act to quell the immune response, and get your body back to normal.

Another such hormone is a cytokine, which informs the brain of the intrusion. Some cytokines called leukocytes stop the immune system when necessary to prevent the destruction of healthy tissue, and also halt the inflammatory response. If the leukocytes are not working properly, the body can be severely damaged as the immune system becomes uncontrolled and starts to attack healthy tissue.

Then there are the histamines that allow you to expel the agents causing the problem by sneezing, watery eyes, runny noses and scratching. They lead lymphatic fluid and blood to the site of the problem in order that the invasion can be attacked and destroyed.

It is the histamines that provide what is commonly referred to as an allergic reaction, which is really the immune system coming into action to remove invaders such as pollen, dust mites and any other agent that can cause an allergy. Immunity is caused by introducing small amounts of the agent into the blood, so that the immune system can develop a memory of them. Then, when the same invader returns at a later date, the system can immediately attack them with the antibodies that have been produced.

All of these: inflammation, immunity and allergies, are caused by the reaction of the immune system to what it perceives as an invader. Normally these are bacteria and viruses, but sometimes they react to other foreign bodies such as pollen. In some people this provokes no response at all, while in others it provokes the immune system to create antibodies against the pollen, and emit histamine to expel it.

Substances that cause allergies are referred to as allergens. Many allergens are environmental, such as dust, pollen and peanuts. Some people are allergic to certain animals, such as cats or dogs, and others to chemicals in the air such as hydrocarbon emissions, particularly when in particulate form.

The symptoms can be simple, such as a runny nose, a cough and hay fever or more complex such as hives, eczema and asthma. All of these are caused by the immune system reacting to an invader. There are also foods that cause internal inflammation, such as shellfish and whitefish, eggs and tomatoes. Many of these can be extreme, leading to serious illness and can even be fatal. So what can be done to treat people who are particularly prone to inflammation and allergic reactions?

Omega-3 fatty acids have been found to reduce inflammation, unlike their Omega-6 cousins that appear to increase it. Omega-3 oils contain chemicals known as eicosanoids, of which the prostaglandins are an example. While this might seem paradoxical, since prostaglandins are what set off the whole process, there are many types of these. Prostaglandin E2 is the type that leads to allergic immune reactions, and omega-3 fatty acids reduce the concentration of these in the blood.

Those who eat little fish tend to suffer more from inflammatory conditions such as arthritis and other conditions indicating a lack of control of the immune system. On the other hand, processed foods contain more omega-6 fatty acids that can promote these conditions. The major components of omega-3 oils are alpha-linolenic acid (ALA) and eicosapentaenoic acid (EPA) and also DHA, docosahexaenoic acid. These are all anti-inflammatories and have been shown to have very positive effects on inflammatory conditions such as rheumatoid arthritis, Crohn’s disease and eczema. Each of these is a different type of inflammatory condition caused by inappropriate immune response.

However, it not just fish oils that can help resolve problems with our immune system. Quercetin is what is known as a flavonoid. It is a strong anti-oxidant and natural anti-histamine that combats histamine release and the swelling associated with the immune response to allergens. It also counters the inflammatory agents of arthritis and so helps to reduce the pain associated with many of these conditions. It appears to work better in conjunction with bromelain, a very powerful anti-inflammatory that also possesses anti-allergen response properties. Bromelain is extracted from pineapple stems.

Another natural product is a resin extract that is obtained from the Boswellia serrata tree. It has powerful anti-inflammatory properties, and has been recommended for the treatment of arthritis (rheumatoid and osteo), Crohn’s disease and has been suggested as a treatment for asthma, though studies are still under way. However, world wide experience is that Boswellia is effective against gout, psoriasis and ulcerative colitis, to name another three totally different inflammatory conditions.

What all of this indicates are two things. First that inflammation, immunity and allergic reactions are connected conditions, and due to either poor control over or an over stimulated immune response to what the body perceives as being abnormal, in the way that hormones and other chemicals that are used to control our immunity detect it to be.

Secondly, there are many natural products that can be used as supplements to treat these effects caused by the immune system, and that their effectiveness has been proven, if not by scientific study, then by generations of traditional application as treatments of the symptoms of the conditions concerned.

However, although many have been proved by scientific study, others have not, and you should always refer to your physician before undergoing any treatment other than that prescribed. Also, there is incontrovertible evidence that the role for supplements in the treatment of inflammation, immunity and allergic reactions are beneficial. Many use nothing else.

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Dietary Supplements

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Date: March 30, 2007 12:09 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Safe Solutions for Chronic Pain

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Let Vitanet Help Relieve Chronic Pain with Natural Supplements

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Date: July 08, 2006 01:24 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: How Does It Work?

Proprietary Probiotic blend

Acidophilus Pearls is a probiotic dietary supplement designed to help support digestion and a healthy intestinal system. Probiotics, such as lactobacillus acidophilus and Bifidobacterium longum are live microbial food supplements that are non-toxic and do not cause disease (non-pathogenic). Probiotics do not permanently colonize in the body. Therefore, they need to be ingested regularly for their health-promoting effects to persist. After ingestion, probiotics must adhere to the wall of the intestine. Once attached to the intestinal wall, the bacteria are capable of multiplying and colonizing in the gut, thereby enhancing the immune response. 1-3

Oral probiotics help support the composition and metabolic activities of the large intestine micro flora.1 Micro flora of the large intestines assist digestion through fermentation (making the intestines inhospitable to invading species), protection against pathogenic bacteria, and stimulation of the development of certain components of the immune system.3 Lactobacillus acidophilus and Bifidobacterium longum occupy a central role in the guy micro flora, thereby enabling them to influence the composition of the micro flora to provide health benefits.4

Breakdown of Lactose

Lactose is an important sugar that is converted to lactic acid by lactic acid producing bacteria (such as lactobacillus acidophilus and Bifidobacterium longum).6 Lactose intolerance results from an inability to digest lactose.7 Lactose intolerance may be due to genetics, age related declines in intestinal lactase (the enzyme that metabolizes lactose), or other reasons.8 Lactase deficient people accumulate non-absorbed lactose in the gastrointestinal tract, which draws water and electrolytes into the gut and accelerates transit time, which can lead to diarrhea.2,8 Lactic acid bacteria can help metabolize the non-absorbed lactose in the gastrointestinal tract.

In a randomized, controlled clinical trial, Bifidobacterium longum was shown to support the breakdown of lactose and reduce the symptoms of lactose intolerance (flatulence) in people with lactose intolerance.5

Immune system support

While a normal micro flora is associated with good health, changes in intestinal health are associated with altered immune function. A well-functioning gastrointestinal immune system mediates immune responsiveness at mucosal sites and throughout the entire body via the control of quality and quantity of foreign substances gaining access to the immune system.9

Lactobacillus acidophilus and Bifidobacterium longum have shown to possess immunoprotective/immunomodulatory properties. These benefits include modulation of: cytokine and various interleukin production, autoimmunity, natural killer cells cytotoxicity, lymphocyte proliferation, and antibody production.3

In an open, randomized, controlled trial, Lactobacillus acidophilus and Bifidobacterium bifidum were supportive of colon health in older adults. In addition, B cell (important antibody producing immune cells) levels increased as compared with the untreated group. The probiotics were very well tolerated, with no significant side effects or variations in clinical chemistry or hematologic parameters.

Decrease Occasional Constipation

Constipation is defined as infrequent or difficult defection that can result from decreased motility of the intestines. It is a common problem, particularly in older adults. When the feces remain in the large intestine for prolonged periods, there is excessive water absorption, making the feces dry and hard.7

Insufficient amounts of lactobacillus acidophilus and Bifidobacterium longum may play a role in delayed bowel movement, which can favor the activity of undesireable putrefactive bacteria (bacteria that break down organic matter into potentially harmful compounds) in the intestines. Lactic acid bacteria contribute to the re-establishemtn of healthy intestinal flora (at the expense of pathogen growth) and stimulation of intestinal peristalsis via lactic acid. 10

Support of putrefactive Processes

When unbalanced conditions are present in the intestines (ie, unbalanced diet, high acidity, and/or low levels of lactic acid bacteria), organic matter may be putrified (decomposed or rotting) by certain bacteria and produce harmful substances such as ammonia.1,11

Micro flora or the large intestines promote homeostasis (balance) in both the intestine and the vagina.1,12,13 these activities are carried out via support of direct production of antibodies, competition with adhesion to intestinal cells, or indirect modulation of the immune system.2

Support Digestion

Normal micro flora of the large intestine help support and complete digestion via fermentation.1,11 The risk of diarrhea, for example, increases when the capacity of colonic micro flora to ferment carbohydrates decreases.8 Oral ingestion of probiotics produces a stabilizing effect on the guy flora.2

Additional Benefits

The benefits of probiotics extend beyond digestion support and immune support. Lactobacillus acidophilus and Bifidobacterium longum also help support the better utilization and bioavailability of nutrients, including vitamins, minerals, proteins, fats, and carbohydrates.14

Candida albicans is a fungus that is a naturally occurring component of normal gastrointestinal micro flora.15 however, C. albicans should be maintained at healthy levels. Probiotics have been shown to help retain healthy levels of C. albicans that are already within normal limits.

True Delivery Technology

Recently, our Enzymatic Therapy laboratory tested four leading probiotics nutritional supplements in the marketplace. These supplements were best selling brands, two of the supplements were enteric coated, and all had label guarantees about potency (guaranteed number of live bacteria). The laboratory scientist counted the levels of living bacteria found in compared these findings to the bacterial levels claimed by each manufacturer. The products were also subjected to a simulation of stomach acid conditions, after which the levels of living bacteria were re-counted.

The laboratory results found the probiotic supplements contained less than 50% of the number of living bacteria that they clamed on their labels. Furthermore, the laboratory results found that only 10% of the liver bacteria clamed on the manufacturer’s label survived the simulated stomach conditions.

Acidophilus pearls used a revolutionary proprietary “pearl” encapsulation process called True Delivery Technology. The True Delivery Technology is a special type of natural coating that protects the probiotic bacteria.

The True Delivery is a seamless “pearl”, which consists of three layers. The inner layer is a paste of probiotic bacteria suspended in a protective oil suspension. The second layer actually “seals” the bacteria in the capsule, which protects them from air, moisture, and the effects of heat. Probiotic bacteria are anaerobic organisms (grow in the absence of oxygen) and the presence of oxygen can actually injure or kill them. Because probiotic bacteria are INJURED or destroyed by the acids of the stomach, the third, outermost layer of the pearl is specially developed to only dissolve in the alkaline environment of the intestines. This patented gelatin pearl protects the probiotic bacteria from the acid environment of the stomach, so that they can successfully reach the intestine.

The patented seamless pearl capsule of Acidophilus Pearls assures the virtually all the bacteria remain unINJURED and healthy to colonize in the intestine. In addition, the special pearl capsule’s ability to seal the bacteria inside it eliminates the need for the nutritional supplement to be refrigerated – though they can be kept in the refrigerator, if desired.

Storage recommended

Store at controlled room temperature, 59 degrees F to 86 degrees F (15 – 30C). May refrigerate if desired

This statement has not been evaluated by the food and drug administration. This product is not intended to diagnose, treat, cure, or prevent any disease.

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Date: July 07, 2006 12:00 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Super Powerful Anti-Oxidants: Acai fruit, Green Tea, Mangosteen, Noni Fruit, and Pomegrana

Acai fruit

Acai (pronounced “ah-sigh-ee”) is a powerful berry that grows wild in the Amazon rail forest of Brazil and is considered by many (including Oprah Winfrey) to be one of the top super-foods available! This little, rich berry is no doubt one of the most nutritious foods in the world. Acai is packed full of anti-oxidants (to help combat premature aging), essential fatty acids, dietary fiber and amino acids. In fact, studies show that Acai pulp contains 10 – 30 times the anthocyanins (purple colored antioxidants) of red wine!

Green Tea

Is any other food or drink reported to have as many health benefits as green tea? The Chinese have known about the medicinal benefits of green tea since ancient times, using it to treat everything from headaches to depression. Did you know that green tea has been used as a medicine in China for at least 4,000 years? Today, scientific research in both Asia and the west is providing hard evidence for the health benefits long associated with green tea.

Mangosteen

Mangosteen, also known as “Queen of Fruits”, is a fruit grown in Thailand and Myanmar, and on some southern Caribbean islands. In addition, Mangosteen has a number of compounds, the most prominent being xanthones, a group of compounds that have antioxidant and other potent physiological properties.

Noni Fruit

For over 2000 years, Noni (morinda cetrifolla) has been used for its many beneficial properties. The early Polynesians used it as a general tonic. They found it particularly beneficial for imbalances of the immune, respiratory, digestive, and intestinal system. It was also determined to be helpful for the central nervous system and as an aid for INJURED muscles, bones and tissue. Currently, scientists are studying possibilities in treating hypertension, high blood pressure, and counteracting the aging process.

Pomegranate

Pomegranate has quickly become one of the most talked about health foods in the past year. Pomegranate fruits contain polyphenols, tannins and anthocyanins – all are beneficial antioxidants. Interestingly, pomegranate juice contains high levels of antioxidants – higher than most other fruit juices, red wine or even green tea. In addition, preliminary evidence indicates pomegranate is particularly beneficial for cholesterol and blood pressure.

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

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

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

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

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

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

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

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

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

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

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

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

REFERENCES:

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

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Date: July 12, 2005 09:56 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: THE ACTION OF SILYMARIN ON THE LIVER

THE ACTION OF SILYMARIN ON THE LIVER

The liver is responsible for detoxifying the body. Anytime we ingest potentially harmful chemicals, which include drugs or alcohol, liver cells must filter out these compounds. Michael Moore, author of Medicinal Plants of the Desert and Canyon West says:

“When the liver is overworked, or unequal to the task our brain gives it, its blood vessels enlarge, the fluids move m o re slowly through it as it tries to increase its working area; it gets enlarged and congested.” He goes on to say that Milk Thistle improves the quality of blood proteins which help move toxins out of the blood.

The chemical components of Silymarin are referred to as true hepato-protective or “liver friendly.” The capability of Milk Thistle to protect the liver and enhance its function is due largely to its ability to inhibit certain factors, which result in liver damage. The most significant of these are leukotrienes or free radicals. What makes the silymarin compounds in Milk Thistle even more impressive is that while they protect, they also stimulate liver protein synthesis.2 This explains why even an INJURED liver can regenerate tissue more rapidly when Silymarin is present.

Leukotrienes, which harm liver tissue, are compounds which are created when oxygen transfers to a polyunsaturated fatty acid. Silybum compounds can help to inhibit the formation of these molecules. The flavonoid-like compounds which comprise silymarin have two specific actions on the liver:

1. Silymarin binds hepatocyte (liver cell) membranes which protects them from the potential damage of environmental toxins, (such as the death cap mushroom), foreign chemicals, endogenous poisons and free radicals.

2. Silymarin enters the liver cells and promotes their ability to produce certain enzymes which are vital to liver health. This action can speed the healing of liver cells from injury or disease. By enhancing the production of these enzymes, liver cell regeneration is also stimulated.

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Date: June 23, 2005 11:31 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: SUMMARY OF SPECIFIC ACTIONS ASSOCIATED WITH CAPSICUM

SUMMARY OF SPECIFIC ACTIONS ASSOCIATED WITH CAPSICUM

The following are specific actions associated with capsicum and the conditions it can help relieve.

varicose veins wound bleeding

Substances that Complement Capsicum As previously mentioned, Capsicum is frequently added to herbal combinations in order to boost and potentiate their action.

The following herbs create particularly good herbal complements with Capsicum: garlic, ginger, hawthorn berry, peppermint, myrrh, yucca, gotu kola, parsley, ro s e m a ry, echinacea, kelp, ginseng, ginkgo, bayberry, slippery elm, black walnut, papaya, pep- permint, fennel, St. John’s Wort, and lobelia.

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Gotta Habit

Date: June 14, 2005 06:26 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Gotta Habit

Gotta Habit

by Catherine Heusel Energy Times, October 1, 1998

Quitting a bad habit presents quite a challenge. Just ask anyone who's ever tried to give up cigarettes. Or alcohol. Or even coffee. You start out with the best of intentions but cravings can push you off the straight and narrow. The result: giving up a nasty habit often means regenerating your resolve and trying again. And again. And again. While some blame an inability to give up a bad habit on poor will power, in actuality, the tenacious chains of these habits may derive from the body as well as the mind. "People don't seem to realize the effects these substances have on the body," says Joan Mathews-Larson, Ph.D., director of the Health Recovery Center, in Minneapolis, and author of Seven Weeks to Sobriety. Dr. Mathews-Larson is one of a growing number of addiction professionals who stress physical recovery when giving up a drug, whether it's caffeine or cocaine. "You can't disrupt your internal chemistry for months or years on end and then expect your body to automatically bounce back," she says. "You have to give it some help."

Breaking Off is Hard to Do

The substances we love to overdo all share a common characteristic: they mimic or enhance the body's chemical messengers. Opiate drugs such as heroin, for example, are virtually identical to substances called endorphins, neurochemicals that the body produces to mask feelings of pain. (When an INJURED Kerri Strug performed her final Olympic vault, her endorphins enabled her to push past her protesting nerve endings.) Stimulants such as caffeine and nicotine can provide a "rush" similar to that produced by adrenaline and noradrenaline, the neurochemicals that provide the quick and excited feeling that swells down your spine during frightened or thrilling moments. On the other hand, some drugs (notably alcohol and cocaine) boost the activity of several different neurochemicals, including those that control sensations of pleasure. From a biological perspective, then, none of the drugs that people take are totally unfamiliar to the body. Your body makes similar chemicals all the time, in response to specific events and needs. "The main advantage of drugs is that they act powerfully and immediately," explains Andrew Weil, M.D., in his book, From Chocolate to Morphine: Everything You Need to Know About Mind Altering Drugs. "Their main disadvantage is that they reinforce the notion that the state we desire comes from something outside us."

Serious Disadvantage

Another serious disadvantage of drugs resides in their impact on the body's everyday neurochemical balance. Under normal circumstances, the body maintains its internal chemical environment on a fairly even keel. It may pump out oodles of adrenaline in response to a specific threat, like a near miss on the highway, but for every such scary "high" a corresponding low sets in: that rubbery-kneed sense of relief you feel when things calm down.

Over time, the body mistakes the introduction of mind-altering, foreign chemicals as an excess of its own production of neurochemicals. As a result it slows down its own manufacture of these vital substances. So when you stop drinking caffeine or other stimulating drugs, the body finds its neurochemical receptors begging for relief: Cravings raise their ugly heads while so-called withdrawal symptoms raise your discomfort level. A general sense of ill health sets in until the body's natural production of neurotransmitter production reaches an acceptable level.

Healthy Behavior

Breaking a bad habit may be complicated by a lack of regenerative health habits. "A proper diet is pretty low on an addict's list of priorities," says Mathews-Larson. "Most of the people we see live on fast food and junk food." Many people trying to give up bad habits are attacked by the chemical and physical problems resulting from eating fatty foods and not exercising: their bodies are chemically and physically challenged from a poor lifestyle.

Fortunately, recovery from a bad habit can be enhanced by balancing your diet, exercising and using nutritional supplements to straighten out your interior biochemical environment.

"We target substances that are essential for maintaining optimal brain chemistry," points out Mathews-Larson. Foremost among these substances are a variety of amino acids that the body needs to rebuild its supply of neurotransmitters. In addition, nutrients such as B vitamins and vitamin C are often in short supply among those who indulge in addictive drugs and alcohol.

Exercise and meditation are equally important to recovery, since both activities naturally prompt production of mood-enhancing neurochemicals. (The so-called "runner's high" is believed to result from endorphins and other neurochemicals stimulated by jogging.) More importantly, natural stimulation that pushes the body to create its own, endogenous supply of feel-good chemicals produces a longer sense of well-being than the transitory high induced by drugs and alcohol. "The potential for highs is always there, and many techniques exist for eliciting them," declares Dr. Weil. "Drug highs differ from other highs only in superficial ways."

Natural Appreciation

To experienced treatment professionals such as Mathews-Larson, kicking a long-standing habit depends on learning to appreciate the natural high of good health, through an overall healthy lifestyle. "It's not enough to just stop using the substance you abused," she contends. "You have to build a high quality of life for yourself, so you can fully enjoy every day."

Recommended Reading: Seven Weeks to Sobriety, by Joan Mathews-Larson (Fawcett Books, 1997) Healing Anxiety With Herbs by Harold H. Bloomfield. (Harper Collins, 1998.)

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Vitanet ®

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Garlic for the Ages - eat garlic because it's good for your heart...

Date: June 13, 2005 09:58 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Garlic for the Ages - eat garlic because it's good for your heart...

Garlic for the Ages by Phyllis D. Light, RH Energy Times, January 1 , 2004

If you eat garlic because it's good for your heart, you swallow a plant renowned through human history: Garlic was eaten by Roman soldiers for courage; Egyptian slaves ate it to build strength; Christians, Moslems and Hindus include it in their sacred books. Others have used it as an aphrodisiac, a vampire deterrent and a magical charm.

Garlic has a long history as a culinary and medicinal herb that people either love or hate. Its pungent aroma and warming flavor captivates or repels, but its wealth of natural chemicals does great things for your heart.

Garlic (Allium sativum), a member of the onion family, is native to Siberia but, in modern times, has become a treasured naturalized citizen grown all over the world. Garlic's use in folk medicine dates back about 7,000 years, making it one of the oldest known medicinal foods or herbs.

In modern times, garlic is generally used as a condiment lending a unique, pungent flavor to dishes, but in medieval times, garlic was cooked and eaten as a vegetable in its own right. Today you can revel in a wealth of garlic choices, consuming garlic raw, cooked in various recipes, as a dried concentrated powder, as a fresh liquid extract or as aged garlic powder.

Powerhouse Herb

Each little clove of garlic is a powerhouse of good-for-you natural compounds, vitamins and minerals. The biologically active constituents of garlic include allyl sulfur compounds as well as the minerals germanium and selenium.

When you chop up raw garlic and allowed it to stand for about 10 minutes or more, the herb's fragments release an enzyme that converts its compounds from allyl sulfur to another natural chemical called allicin.

Although some allicin is found in garlic before it is cut apart, the yield multiplies considerably when the garlic clove is chopped or pressed and exposed to water (Garlic Conference, Newport Beach, 11/15/98; Penn State).

Many researchers believe that the more allicin produced, the better the health benefits. (Although this is still being debated among the garlic cognoscenti.)

But garlic's benefits don't end meekly on the kitchen counter with its allicin content rising.

Cooked garlic and aged garlic contain other helpful chemicals called diallyl sulphides. Consequently, in any form, garlic produces beneficial health effects.

Fortunately, since raw garlic juice or oil can often irritate the stomach lining, especially in people with sensitive stomachs and delicate digestive systems, garlic supplements and cooked garlic are both helpful for heart health.

Aged Garlic Extract

Aging garlic significantly reduces its irritating compounds and makes it easier on the stomach.

In the aged form, all of garlic's healthy sulfur-containing compounds are converted to water- soluble compounds that retain garlic's natural health benefits. In addition, the pungent odor of the garlic is greatly reduced, an outcome many people desire.

When a group of researchers at Brown University studied the effects of aged garlic extract on people's cholesterol levels, they found that after six months, cholesterol dropped about 6% (Am J Clin Nutr 1996; 64:866-70).

In another study from Brown, researchers found that aged garlic extract reduced platelet adhesion, a sticky blood problem that can cause vessel blockages (New Drug Clin 45(3):456-66). When platelets are less sticky, they are less likely to form blood clots that can cause heart attacks.

Garlic and Heart Disease

A growing body of research shows that a clove of garlic a day can significantly reduce your risk of heart disease.

A four-year study of 280 people who took dried garlic powder three times a day found a striking reduction in the types of arterial plaque blockages that threaten the blood supply to your heart. Interestingly, in this particular study, women displayed a greater reduction in plaque than men (Atherosclerosis 2000; 150:437-8).

Another study found that garlic may also keep important blood vessels more supple and less likely to spasm. Arterial spasms have been linked to heart attacks and other cardiovascular problems in women.

Aortic Complications

As you age, the aorta, one of the main arteries that carries blood, may harden, reducing blood flow from the heart and placing damaging stress on a number of other bodily organs. In research at Ohio State University, people who took garlic supplements had 15% less aortic stiffness than people who avoided garlic (Circulation).

In this study, scientists found that the older people enjoyed the greatest cardiovascular benefits from daily garlic use.

Researchers believe this extra benefit is linked to the fact that as you age, the endothelial tissue in the linings of the aorta and other blood vessels become less responsive to the need to dilate (expand). As a result, when more blood flow is required, and the heart pumps faster, these vessels take more of a beating from the friction of blood passing through them.

That restriction in dilation has two damaging consequences: In one instance, vessel walls can be INJURED. In response to these injuries, cholesterol collects on artery walls, plaque forms and the blood supply to the heart muscle can be restricted, leading to a heart attack. In other cases, arteries can restrict blood flow to the heart simply because of the inability to expand sufficiently.

The Ohio State researchers found that arteries in folks aged 70 to 80 benefited the most from taking garlic. But those in their 60s also benefited significantly.

Garlic's natural antioxidant properties can also help protect the heart from damage after surgery (BMC Pharmacology 9/02).

In a study performed on lab animals, researchers found that oxidative stress, a source of cell damage that takes place after surgery, dropped when the animals ate a diet that included garlic.

Oxidative stress can seriously reduce cardiac function, limit the amount of blood the heart can pump and cause permanent damage to the heart muscle.

Garlic Against Blood Clots

Under normal circumstances, blood clots serve a useful purpose: Cut yourself and a blood clot stops the bleeding. Without this clotting ability, you might bleed to death. But if your blood is too prone to clotting, these clumps can cut off blood supply to your heart and other organs, endangering your life.

In a study of apparently healthy individuals whose relatives had already suffered from heart disease, researchers found that their blood formed thick, tangled blood clots, increasing their risk of heart problems (Circulation rapid access 9/23/02). These blood clots are made of a substance called fibrin, a protein in the plasma that can form elastic threads that cut off blood flow.

While these researchers recommended aspirin as an anti-clotting measure for people at risk of heart disease, garlic can also help break up fibrin and possibly lower your chance of heart problems (Pharmatherapy 5(2): 83).

The fibrin that forms clots is produced by blood cells called platelets. Other scientists who have looked into garlic's benefits believe that one of its natural chemicals called ajoene may keep platelets from producing excessive fibrin and gumming up the flow of blood through arteries.

If you've rarely indulged in garlic, you may need a period of adjustment in growing accustomed to its unique taste and aroma. But its heart benefits confirm the long-ago observation by Pliny, an ancient Roman naturalist, that "garlic has powerful properties."

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Vitanet ®

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Summer Sports Nutrition Guide

Date: June 11, 2005 03:54 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Summer Sports Nutrition Guide

Summer Sports Nutrition Guide by Joyce Dewon Energy Times, June 18, 2004

If you're hooked on exercise you're probably just as hooked on using top-notch equipment when you work out. Those who are serious about staying in shape buy the best running shoes, carefully pick out the best bikes and tread on durable treadmills. But do you pay just as much attention to your nutrition?

Scientists who have studied exercise have found that what you eat before, during and after workouts is crucial to maintaining your health, getting into shape and staying fit. To achieve your best athletic performance without getting INJURED or sick depends on optimum nutrition. When you carefully plan what to feed your exercised body, it rewards you by feeling and looking better.

Short 'n Sweet

If you thought long exercise sessions were the only ways to get decent exercise benefits, take notice: small doses of exercise during the week can go a long way. " The important thing, apparently, is just do it," says Howard D. Sesso, ScD, author of an American Heart Association study on exercise and heart disease. In his study, exercisers demonstrated that several short sessions of exercise were as good for the body as a single long session (Circ 8/00; 102:975-80). " Short sessions lasting 15 minutes long appear to be helpful,"Dr. Sesso explains. Even walking about three miles per week, which is a moderate level of exercise, lowers your risk of heart disease by 10%.

No Sweat?

Some people glorify in working up a sweat; others curse the dampness. But putting in extra effort in even short bursts of activity pays off: experts have found that intense exercise burns more calories than more relaxed sessions, more effectively reduces your risk of cardiovascular disease and helps stabilize blood sugar levels. In addition, it stimulates production of human growth hormone, which offsets some of the effects of aging (Exp Biol Med 2004 Mar; 229(3):240-6).

But don't go crazy if you haven't worked out in a long time. The intensity of the workout should match your physical fitness. According to the American Heart Association, when people exercise at a comfortable pace, their heart rate and level of exertion stay within a safe range, but still high enough to benefit their health. Strenuous activities, for those who can handle them, produce the most physiological bang for the jog. But brisk walking within your own level of fitness still offers significant benefits.

Feeding Your Muscles

When you exercise, you work and develop your muscles, which are made primarily out of protein. Despite this fact, many exercise experts have advocated high-carb diets for athletes. But, as John Ivy, PhD, and Robert Portman, PhD, point out in their book The Performance Zone (Basic Health), "[While] there is no doubt that aerobic athletes require more carbohydrate than strength athletes...we are now discovering that the addition of protein to a carbohydrate supplement offers significant benefits to aerobic athletes."

That is why researchers believe that consuming plenty of protein along with carbohydrates offers the best fitness benefits. Protein helps fuel activity more efficiently and aids in recovery after a session at the gym, allowing your body to repair muscle damage and build up muscle fibers.

During exercise, you break down muscle tissue. It is during recovery, after your exercise session ends, that muscles are rebuilt. At the same time, other cellular processes take place that adapt the body to working out.

According to Ivy and Portman, timing your intake of nutrients after exercise is crucial: "The ability of the muscle machinery to regenerate itself decreases very rapidly after a workout, so that the nutrients consumed more than 45 minutes after exercise will have far less impact in helping the muscles regenerate than nutrients consumed earlier."

Stresses and Tears

Engaging in athletics can cause microscopic muscle tears. These tears can cause a range of problems that, when you exercise excessively, can cause pain and injury.

Inflammation is the body's response to cellular damage. The damaged area can swell as the body sends white blood cells and other cells to repair the INJURED area. Unfortunately, the swelling can further damage the muscle cells.

Since inflammation can take 24 hours or more to cause the collection of cells in the INJURED area, it can be a day or two before the resulting muscle soreness reaches its peak painfulness and then starts to subside.

Cortisol, a hormone produced when you exercise strenuously, which can result in muscle fiber damage. Cortisol boosts protein breakdown, so it can be used to fuel muscle movement. But the more protein breaks down, the more potential exists for muscle fiber injury. Free radicals are caustic molecules that are created when the mitochondria (small structures in cells) create energy; these marauders can also cause microscopic shredding of muscle strands. As you increase your use of energy during exercise, you simultaneously increase the production of free radicals. This collection of free radicals can outstrip the body's antioxidant defenses, leading to extensive muscle damage and dampening of the immune system.

All of these cellular events can make you sore. They are also the reasons that athletes who overdo it day after day are liable to come down with nagging colds and a variety of infections.

Muscle Fuel

Your muscles use different substances for fuel depending on what you ask them to do. Lift a heavy weight and muscles recruit two processes called the creatine phosphate system and glycolysis to generate a large amount of quick energy. These are known as anaerobic types of energy production.

But if you jog, swim, bike or perform any other aerobic activity, the cells use oxygen in what is called cellular respiration to supply energy to working muscles.

When you exercise aerobically for extended periods of time, the energy available is generally limited by how much oxygen your body is capable of taking in and supplying to the muscles, where it takes part in energy production. In athletic circles, this upper limit is known as your VO2max.

The carbohydrates your body burns for energy during aerobic activity are taken from blood sugar and carbohydrate reserves called glycogen. (The muscles store glycogen, as does the liver.) During a workout session, your glycogen supply is limited to what is stored with your muscles. But blood glucose can be boosted by carbohydrate drinks, energy gels or bars.

Most people who work out have enough glycogen and blood sugar to fuel moderate aerobic activity for about two hours. After that, the body turns mostly to fat and protein stores to fuel exercise.

Fat Into the Fire

In contrast to the body's quickly diminishing supply of glycogen and blood sugar, fat can last for hours and hours of exercise. According to Portman and Ivy, a 200-pound man with 15% body fat has, theoretically, enough fat energy to run from Washington DC down to Miami Beach-and still has enough energy left over to jump into the ocean.

But using fat for energy is complicated; fat is stored in fat tissue and not readily available to working muscles. Plus, to burn fat for energy, the body needs carbohydrate-it cannot burn fat all by itself. What's more, the conversion of fat into energy doesn't go as quickly as carb conversion.

Protein is also used for energy when carbs run low. But the more you use protein for energy, the more you risk soreness as muscle fibers break down.

Prepare to Energize

To maximize your energy during exercise and minimize soreness, Portman and Ivy recommend some simple nutritional steps:

• Slowing the breakdown of muscle proteins

Drinking for Exercise The most obvious nutrient you lose during intensive exercise is water in your perspiration. However, that perspiration also contains an array of minerals known as electrolytes. So, for optimal performance and health, experts recommend you replace both the water and its minerals.

Merely drinking water-instead of electrolyte-filled sports drinks-during prolonged aerobic activity can be dangerous. It leaves you vulnerable to a condition called hyponatremia, which can occur when your blood levels of sodium and other electrolytes drop, but your blood volume stays steady or increases because you drink lots of water.

According to Edmund Burke, PhD, in his book Optimal Muscle Performance and Recovery (Avery), one out of four athletes who seek medical attention after a long race are suffering hyponatremia.

" Typically," he says, "conscientious athletes get in trouble because they adhere too diligently to one recommendation: the need to drink lots of fluids. They tend to ignore another recommendation: The need to keep electrolytes up...for most endurance athletes the real problem is drinking too much water." Dr. Burke warns that you can possibly suffer hyponatremia even if you don't drink a lot of water.

Signs of hyponatremia can be similar to those of heat exhaustion. But, while resting and cooling down can help alleviate heat exhaustion, that doesn't help hyponatremia. " To protect yourself against hyponatremia, start by paying attention to how much you sweat," Dr. Burke says. If your sweat seems very salty, burns your eyes or leaves an evident, white residue on your skin, you may be losing a great deal of sodium and should be diligent about eating salty foods. " You can also make sure you're getting enough sodium by drinking sports drinks instead of plain water during long (exercise) events," Dr. Burke notes.

Exercise Matters

Of course, no matter what you decide to eat or drink while exercising, the most important factor for your well-being is to get out to the gym, onto the track, or just on to the sidewalk, and do something, even if you only want to go out for a walk. No matter how old you are or what kind of shape you're in, you'll benefit from exercise.

" It's solid evidence that across-the-board declines occur when people stop exercising," says Charles Emery, PhD, professor of psychology at Ohio State University (Health Psychology 3/04).

Don't decline or remain supine. Let your fitness climb.

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Vitanet ®

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Cross Training

Date: June 10, 2005 02:48 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Cross Training

Cross Training

by column Energy Times, April 1, 1999

If you've ever felt burned out, bored and/or just plain tired of your exercise program, you may be in need of a taste of cross training. When your exercise routine becomes too routine, you run not only the risk of losing your motivation for physical activity, but you may also run an added chance of injury. The possible cause: overusing particular muscles that receive an excessive amount of stress as other muscles practically atrophy while waiting for a chance to show off their stuff.

For instance, if you are a devoted runner who spends hours jogging, your upper body may wither unless you give it a reason not to. At the same time, your achilles, hamstrings, knees and lower back muscles may protest those miles after miles. As Frank Jobe, MD, Neal EllAttrache, MD, and Karen Mohr, PT, point out in Athletic Forever (Contemporary), "Dedicated runners are among the most injury-prone of all athletes. If running is your main form of exercise, you have a 37 to 56 percent chance of sustaining an injury each year and your chances for a recurrence of that injury are as high as 70 percent."

Simple Principle

The basic principle of cross training is simple: take part in various activities that supplement each other. Runners should lift some weights or at least shoot a few hoops to keep those arms and shoulders toned. Bikers should walk or run now and then to keep their bones healthy. (Bicycling, since it is not a weight bearing exercise, does little to promote bone strength.) Swimmers should find something to do on dry land so that their bones react to gravity and grow stronger. And, no matter what your sport, you should stay well-nourished and supplied with plenty of antioxidants.

As Stephen T. Sinatra, MD, points out in Optimum Health (Bantam), while athletes may enjoy health benefits from exercise, "The vigorous training pursued by competitive athletes renders them more prone to catabolic stress-a situation in which tissues are constantly broken down."

He goes on to point out that the low fat diet many athletes follow may be short of antioxidant nutrients. Unfortunately, that shortage can lead to injury. The metabolic acceleration caused by athletic activity may increase potentially harmful oxidative stress at the cellular level. Without antioxidant nutrients to help quell that stress... Well, the results may not be pretty. Potentially, that kind of oxidative damage may, theoretically, lead to cancer or heart disease. As Dr. Sinatra says, in those circumstances, "the supplemental use of glutathione, vitamins C and E, coenzyme Q10 and magnesium seems reasonable. Some athletes, such as menstruating women, may also need iron supplementation."

In addition, water is crucial for athletes to stay adequately hydrated during activity. According to Daniel Gastelu and Fred Hatfield, PhD, in Dynamic Nutrition for Maximum Performance (Avery), when you run short of water "this can adversely affect performance and, in the long run, can cause peaks and valleys in the athlete's performance." In addition, they advise using sports drinks to stay adequately supplied with electrolytes. "The major electrolytes found in bodily fluids are chloride, magnesium, potassium and sodium."

Electrolytes serve a host of duties, including keeping the heart muscle functioning properly. Gastelu and Hatfield explain, "An electrolyte is an ion that is required by the body to regulate the electric charge and flow of water between the cells and the bloodstream."

Getting Better All the Time

Even if you cross train religiously and try to avoid overdoing one particular sport, sooner or later you may incur injury. If you do (or even before you hurt yourself), the trio of Stanley W. Jacob, MD, Ronald M. Lawrence, MD, PhD, and Martin Zucker, authors of The Miracle of MSM (Putnam), believe that methylsulfonylmethane (MSM) can provide reliable relief for pain and suffering.

"Many people experience rapid relief after starting MSM," say this trio. They go on to claim that "this nutritional supplement has real potential to make a significant impact on the quality of life."

"Your main enemy in the hours following an injury is inflammation," warns Athletic Forever. For injury, they recommend RICE: rest, ice, compression and elevation. In other words, put the INJURED body part in a firmly wrapped bandage (don't cut off the circulation!) Keep the injury cold but don't put ice directly on it (watch out for frost bite). Rest a while and keep the injury elevated. Then, don't exercise again until you've fully recovered.

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VitaNet ®
VitaNet ® Staff

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Heart Science - A Five-Tiered Approach to Heart Health ...

Date: June 02, 2005 12:07 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Heart Science - A Five-Tiered Approach to Heart Health ...

Heart Science 30 tabs

Your heart is crucial to every function of your body. It is the sole organ which pumps oxygen-rich blood through the entire circulatory system, feeding your cells and making life possible. Only recently are Americans realizing the importance of a proper low-fat diet, regular exercise, giving up cigarette smoking, and cutting down alcohol consumption to maintaining a healthy heart. Unfortunately, there has been a huge gap in the number of nutritional supplements which provide nutrients and herbs to support normal heart function. That’s where Source Naturals HEART SCIENCE comes in. Two years in the making, and backed by numerous scientific studies, the nutrients in HEART SCIENCE are some of the most soundly researched of all. Combining high potencies of these super-nutrients, HEART SCIENCE is the most comprehensive, cutting edge nutritional approach to proper heart care available.

Source Naturals HEART SCIENCE— The Five Tiered Approach to Heart Health

Your heart never rests. Even while you sleep, your heart must keep working, relying on the constant generation of energy by the body for its very survival. If this vital organ stops beating for even a short amount of time, all bodily functions cease and life ends. Source Naturals HEART SCIENCE helps support heart function on the chemical, cellular, structural, and energetic levels. This broad spectrum formula includes ingredients specifically geared for
1) generating energy,
2) decreasing harmful homocysteine levels,
3) fighting oxidized cholesterol,
4) maintaining the heart’s electrical rhythm, and
5) protecting artery and capillary linings.

Energy Generators for An Energetic Organ

Every day, the human heart beats about 104,000 times, pumping over 8,000 liters of blood through the body! Because it requires so much energy to perform efficiently, the experts at Source Naturals included specialty nutrients in HEART SCIENCE such as Coenzyme Q10 and L-Carnitine — integral factors in the body’s energy production cycles — to enhance the body’s energy supply.

There are three main interconnected energy generating cycles in our cells — the Glycolytic (sugar-burning) cycle, the Krebs’ (citric acid) cycle, and the Electron Transport Chain. Together they supply about 90 to 95% of our body’s entire energy supply, using fats, sugars, and amino acids as fuel. Coenzyme Q10 is one of the non-vitamin nutrients needed to maximally convert food into ATP (the energy producing molecule). It is the vital connecting link for three of the four main enzyme complexes in the Electron Transport Chain, the next step in energy generation after the Krebs’ cycle. Using the raw materials generated by the Krebs’ cycle, the Electron Transport Chain produces most of the body’s total energy! The heart is one of the bodily organs which contains the highest levels of CoQ10, precisely because it needs so much energy to function efficiently.

CoQ10 is one of the most promising nutrients for the heart under investigation today. It has been postulated that as a result of its participation in energy production, CoQ10 improves heart muscle metabolism and the electrical functioning of the heart by enhancing its pumping capacity.8 Many factors such as a high fat diet, lack of exercise, and cigarette smoking can lead to suboptimal functioning of the heart, and therefore failure of the heart to maintain adequate circulation of blood. Interestingly, people whose lifestyles reflect the above factors also tend to have depleted levels of CoQ10 in the heart muscle.10

Researchers suggest taking between 10-100 mg per day of CoQ10;18,29 HEART SCIENCE provides an impressive 60 mg of CoQ10 per 6 tablets. Similar to CoQ10, L-Carnitine is important for energy production in heart cells. It is a natural amino acid-like substance which plays a key role in transporting fatty acids, the heart’s main source of energy, to the mitochondria, the “power plants” of each cell, where they are utilized for the production of ATP. Heart and skeletal muscles are particularly vulnerable to L-Carnitine deficiency. Studies have shown that supplementation with LCarnitine improves exercise tolerance in individuals with suboptimal heart and circulatory function, and seems to lower blood lipid status and increase HDL (good) cholesterol.16, 22 Each daily dose of HEART SCIENCE contains 500 mg of this extremely important compound.

Like CoQ10 and L-Carnitine, B Vitamins help improve the ability of the heart muscle to function optimally. Each B Vitamin, after being converted to its active coenzyme form, acts as a catalytic “spark plug” for the body’s production of energy. Vitamin B-1, for example, is converted to Cocarboxylase, which serves as a critical link between the Glycolytic and Krebs’ Cycles, and also participates in the conversion of amino acids into energy. A deficiency of B coenzymes within contracting muscle cells can lead to a weakened pumping of the heart.21

HEART SCIENCE is formulated with high quantities of the most absorbable forms of B Vitamins providing maximum nutrition for the high energy demands of heart cells.

Homocysteine Regulators

B Vitamins also play a crucial role in the conversion of homocysteine, a group of potentially harmful amino acids produced by the body, to methionine, another more beneficial amino acid. While it is normal for the body to produce some homocysteine, even a small elevation in homocysteine levels can have negative implications. It is well documented that individuals who are genetically predisposed to having elevated homocysteine levels (homocysteinemics) tend to have excessive plaque accumulation in the arteries and premature damage to endothelial cells (cells lining the blood vessels and heart).26 Researchers have found that even those without this genetic abnormality, whose homocysteine levels are much lower than those of homocysteinemics, still have an increased risk for premature endothelial damage and the development of plaque in the arteries.24, 26 One study conducted among normal men and women found that those with the highest levels of homocysteine were twice as likely to have clogged arteries as were those with the lowest levels.24 Furthermore, it was found that the lower the research subjects’ blood levels of folate and B-6, the higher their homocysteine levels.24 Another study found that Folic Acid administered to normal men and women who were not even deficient in folate caused a significant reduction in plasma concentrations of homocysteine!3 In order to regulate homocysteine levels, it is critical to provide the body with sufficient amounts of B-6, B-12, and Folate, whether through the diet or through supplementation. HEART SCIENCE includes high levels of these three nutrients, providing B-6 in the regular and coenzyme form for maximum utilization.

The Dangers of Oxidized LDL Cholesterol

While many people have heard that high cholesterol levels may negatively affect normal heart function, few people understand exactly what cholesterol is, or how it can become harmful. Cholesterol is a white, waxy substance produced in the liver by all animals, and used for a variety of necessary activities in the body. Your liver also manufactures two main kinds of carrier molecules which transport cholesterol throughout the system: Low Density Lipoprotein (LDL) and High Density Lipoprotein (HDL). Cholesterol is either carried out by LDL from the liver to all tissues in the body where it is deposited, or carried back by HDLs which remove cholesterol deposits from the arteries and carry them to the liver for disposal. Because of this, LDL cholesterol is considered damaging, while HDL is considered protective. Problems occur when there is too much LDL cholesterol in the body and not enough HDL.

When the body becomes overloaded with fat, an over-abundance of LDL particles are manufactured to process it, and they in turn become elevated in the body to a degree that the liver cannot handle. Rich in fatty acids and cholesterol, these particles are highly susceptible to free radical attack (oxidation). Once oxidized, LDL particles are no longer recognized by the body, which attacks them with immune cells. Immune cells which are bloated by oxidized lipids (called foam cells) are a key factor in the development of “fatty streaks” — the first sign of excess arterial fat accumulation. The bloated immune cells accumulate in artery lesions and create plaque in blood vessels, leading to obstruction and constriction of the vessels. Plus, these lodged foam cells continue to secrete free radicals into the bloodstream, making the problem worse.

The development of lesions in the arteries is not an uncommon problem. Arterial (and all blood vessel) walls are composed of a chemical matrix which holds the endothelial cells in place. That endothelial layer is the first and most important line of defense in preventing large molecules, such as cholesterol and fat, from entering the vessel wall. This matrix is composed of proteins, collagen, elastin, and glycosaminoglycans (amino sugars). Arterial lesions can be caused by suboptimal collagen and elastin synthesis due to three factors: 1. Vitamin C deficiency (since Vitamin C is a key building block for collagen and elastin); 2. excessive consumption of rancid fats, or heavy usage of alcohol or cigarettes; and 3. free radical damage. Once these lesions are created, the body attempts to repair them by depositing LDL cholesterol — similar to the way one would patch a tire. If that cholesterol is not oxidized, i.e. chemically changed to a harmful, unstable molecule, then this process does not create a problem. But when arterial lesions are “patched” with foam cells, arterial walls suffer page 3 page 4 even more damage, because those foam cells release free radicals which can further damage cell membranes.

Unfortunately, most people have a lot of oxidized cholesterol floating through the bloodstream. The typical American diet, with its low antioxidant intake and overconsumption of fried and overcooked foods, contributes to the overall levels of harmful oxidized cholesterol. In fact, the average American intake of antioxidants is low even by USRDA standards, making Americans particularly prone to having high levels of oxidized cholesterol.

Cholesterol Fighters

Fortunately, there are concrete steps you can take to prevent the oxidation of cholesterol, and its subsequent ill effects on health. In addition to cutting out high-cholesterol and fatty foods, supplementation can protect existing cholesterol and all tissue cells — from oxidation. Antioxidants, substances which scavenge and neutralize free radicals, protect the cardiovascular system by halting the oxidation of cholesterol, and helping to prevent plaque accumulation in the arteries and the continual secretion of free radicals by foam cells. Supplementing the diet with high amounts of Vitamin C, a key antioxidant, also encourages a more healthy “patching” of existing lesions by using collagen (made from Vitamin C) instead of cholesterol. HEART SCIENCE contains generous amounts of the following antioxidants for their protective benefits:

• Magnesium is one of the single most important nutrients for maintaining a healthy heart. It plays an extremely vital role in maintaining the electrical and physical integrity of the heart muscle. It has been well established that Magnesium deficiency predisposes humans to serious disruptions of normal cardiac rhythm. One theory is that because Magnesium has a relaxing effect on muscle tissue, inadequate Magnesium stores may make the coronary arteries more susceptible to muscle spasm.10 Too little Magnesium can cause a Calcium/Magnesium imbalance, which can lead to the influx of too much Calcium into heart cells, and potentiate spasms in heart tissue. Another point for consideration is that because it relaxes the blood vessels, Magnesium keeps these vessels open, allowing for maximum blood flow to the heart. Magnesium also has the unique ability to stop unnecessary blood clotting by helping to reduce platelet adhesion.31 Blood clots are naturally produced by the body as a protective device to stop excessive blood flow when the body is INJURED. The clotting response happens when the body senses that the normally smooth blood vessel linings are rough, indicating that there is a cut. However, sometimes the body mistakes the rough surface of plaque-covered arteries as cuts, and creates unnecessary blood clots. Or, if a high fat meal has just been eaten, tiny fat globules called chylomicrons enter the bloodstream and can cause platelets to become abnormally sticky, possibly creating clots. When these clots flow through the bloodstream and reach a part of the artery which has plaque buildup, normal blood flow is blocked, and the amount of blood which reaches the heart is severely compromised. Magnesium is also crucial for the entrance of Potassium — a key mineral for many bodily functions — into the cells. Even if the body’s Potassium stores are high, without enough Magnesium, the Potassium will not be able to enter the cells and be utilized by the body. 300 mg of Magnesium (75% of the U.S.RDA) are contained in each daily dose of HEART SCIENCE. Along with Magnesium, Potassium helps to regulate normal heartbeat and blood pressure, and is necessary for the contraction and relaxation of muscle tissue. Potassium and Sodium are present in all body fluids; Potassium is found primarily within cell fluids, while Sodium is usually present in fluids surrounding cells. Together, they function to maintain the normal balance and distribution of fluids throughout the body. The body ideally should have a Potassium/Sodium balance of about 1:1; however, because the body holds onto Sodium, yet eliminates Potassium quickly, it is important that the dietary ratio of these two minerals be at least 3:1. Unfortunately, the typical American diet, with its emphasis on processed, salty (Sodiumrich) foods and lack of fresh fruits and vegetables, severely alters the body’s natural Potassium/ Sodium balance. Diets in the United States are extremely high in Sodium — sometimes containing as much as 15 times the recommended daily intake! A high Sodium/low Potassium diet interferes with the normal regulation of heartbeat and blood pressure, and has been linked with elevated blood pressure.25 Taurine is an amino acid which helps normalize electrical and mechanical activity of the heart muscle by regulating Potassium flux in and out of the heart muscle cells.

Artery Lining Protectors

Your arteries form an integral part of your cardiovascular system, carrying blood away from the heart to nourish other parts of the body. In a healthy heart, blood surges through the arteries with every beat of the heart. The arteries expand with each pulse to accommodate the flow of blood. When arteries become hardened and narrowed by the build-up of plaque, they can’t expand and are not able to transport blood efficiently throughout the body. This inability to open up increases blood pressure, putting a strain on the heart as well as the arteries. HEART SCIENCE includes ingredients specifically geared to protect against plaque formation within arteries and maintain the flexibility of these vital blood vessels. N-Acetyl Glucosamine (NAG) is a key amino sugar which forms the building blocks of mucopolysaccharides. Mucopolysaccharides, which are long chain sugars, are an integral component of connective tissue. They combine to form gel-like matrixes which are present throughout tissues in the body, helping to maintain the elasticity of blood vessels which must continually adapt to the changing pressures of blood flow. Each daily dose of HEART SCIENCE provides 500 mg — a substantial amount — of this vital tissue building block. There is evidence indicating that Silicon, a natural mineral, may protect against plaque formation in the arteries. Silicon is found mainly in connective tissues, where it helps bind the body’s chemical matrix. Bound Silicon is found in high amounts in arterial walls. Researchers have found that there is a steady decline in the Silicon content of the aorta and other arteries as we age. This may be due to the low fiber content of the typical American diet, since fiber is a key dietary source of Silicon.23 HEART SCIENCE includes 400 mg of Horsetail herb extract, a natural source of Silicon. Hawthorn Berry is without question the herb most widely used to encourage normal heart function. The beneficial actions of Hawthorn Berry on cardiac function have been repeatedly demonstrated in experimental studies. Supplementation with Hawthorn Berry has been shown to improve both the blood supply to the heart by dilating coronary vessels, and the metabolic processes in the heart, resulting in normal, strong contractions of the heart muscle.34 Also, Hawthorn may inhibit the angiotensen converting enzyme, which is responsible for converting angiotensen I to angiotensen II, a powerful constrictor of blood vessels.34 Bromelain, a natural enzyme derived from pineapples, has become well-known for its neuromuscular relaxing properties. Researchers have reported favorable results when using Bromelain for soothing vascular linings. Initial research also indicates that Bromelain may break down fibrin, the glue which holds platelets together to form blood clots.6

Capillary Strengtheners

Capillaries are the smallest, yet some of the most important, blood vessels. If you think of your cardiovascular system as a series of roads which transport blood and oxygen, then your arteries are akin to interstate highways, your arterioles are the main city boulevards, and your capillaries are local residential streets. Capillaries are so small, in fact, that single red blood cells actually have to fold up to fit through them. Because of their tiny size and the intricate nature of their network throughout the body, capillaries are responsible for actually nourishing each individual tissue cell! Along the length of the capillaries are small openings called slit pores through which oxygen, glucose, and nutrients leave the capillaries and enter the surrounding interstitial fluid. From there, they cross cell membranes and nourish the cells. Similarly, the waste products of cells enter the fluid and cross over into the capillaries, where they are then transported to the liver and kidneys for disposal. If the capillary slit pores are torn or have lesions, then blood proteins and Sodium will leak out and cause the interstitial fluid to take on a more gel-like nature. This makes the transfer of oxygen and nutrients to the cells more difficult, as well as the disposal of cell waste products, turning the fluid into a stagnant swamp instead of a flowing river. In addition to its powerful antioxidant actions, Proanthodyn also helps protect collagen and elastin, the main constituents of tissue in the capillaries, and throughout the body. It is absolutely essential for capillary walls — which are only one cell thick — to be strong and stable, so that they do not allow blood proteins to leak into the interstitial fluid. Once the interstitial fluid takes on a gel-like consistency, the surrounding cells literally become starved from lack of nutrition. The exciting news is that the proanthocyanidins contained in Proanthodyn are among the few substances yet discovered which can help strengthen capillary walls, ensuring the liquid nature of the interstitial fluid.2 Plus, proanthocyanidins help keep capillary and artery walls flexible, allowing for proper blood flow to the heart.

Heart Smarts

The 1990’s mark a decade of increased awareness among Americans of important health issues. Much of the discussion has revolved around protecting that precious center of life we call the heart. Simple lifestyle change is one of the most effective ways to maintain and protect the functioning of the cardiovascular system. In order to take a holistic approach to heart care, make sure you include plenty of fresh fruits and vegetables (organic, if possible) in your diet, and cut down on fatty and cholesterol-forming foods. Reduce your salt and alcohol intake to a minimum. Try to get regular, sustained aerobic exercise for at least 30 minutes three times a week. Don’t smoke – or if you do smoke, try to eat even more fresh fruits and antioxidant-rich vegetables to counter the amount of free radicals being produced in your body. Lastly, consider adding Source Naturals HEART SCIENCE to your health regimen. HEART SCIENCE, the most comprehensive formula of its kind, provides targeted protection to the entire cardiovascular system. By approaching the promotion of normal heart function on five different levels — through the inclusion of ingredients which supply energy, decrease harmful homocysteine levels, fight cholesterol build-up, help regulate electrical rhythm, and protect artery and capillary linings — HEART SCIENCE is the perfect addition to a holistic approach to heart care.

Source Naturals HEART SCIENCE™

The Five Tiered Approach to Heart Health
Six tablets contain:
Vitamins and Minerals %USRDA
Pro-Vit A (Beta Carotene) 45,000 IU 900%
Vit B1 (Thiamine) 50 mg 3333%
Vit B3 (Inositol Hexanicotinate) 500 mg 2500%
Vit B6 (Pyridoxine HCl) 25 mg 1250%
Coenzyme B6 (Pyridoxal-5-Phosphate)
25 mg yielding: 16.9 mg of Vit B6 845% (Total Vitamin B6 Activity) (41.9 mg) (2095%)
Vit B12 (Cyanocobalamin) 500 mcg 8333%
Folic Acid 800 mcg 200%
Vit C (Magnesium Ascorbate) 1500 mg 2500%
Vit E (d-alpha Tocopheryl Succinate) 400 IU 1333%
Chromium (ChromeMate® †Polynicotinate-150 mcg & Chromium Picolinate††-150 mcg) 300 mcg *
Copper (Sebacate) 750 mcg 37.5%
Magnesium (Ascorbate, Taurinate & Oxide) 300 mg 75%
Potassium (Citrate) 99 mg *
Selenium (L-Selenomethionine) 200 mcg *
Silicon (From 400 mg of Horsetail Extract) 13mg *
* U.S. RDA not established.
Other Ingredients and Herbs
Coenzyme Q10 (Ubiquinone) 60 mg
L-Carnitine (L-Tartrate) 500 mg
Hawthorn Berry Extract 400 mg
Proanthodyn™ (Yielding 95 mg of Proanthocyanidins from grape seed extract) 100 mg
L-Proline 500 mg
L-Lysine (HCl) 500 mg
NAG™ (N-Acetyl Glucosamine) 500 mg
Bromelain (2000 G.D.U. per gram) 1200 G.D.U.
Taurine (Magnesium Taurinate) 500 mg
Horsetail Extract (Yielding 31 mg of Silica) 400 mg
Inositol (Hexanicotinate) 50 mg

Reference:
1. Azuma, J., Sawamura, A., & Awata, N. (1992, Jan). “Usefulness of Taurine... and its Prospective Application.” Japanese Circulation Journal, 56(1), 95-9.
2. Blazso, G and Gabor, M. (1980). “Odema-inhibiting Effect of Procyanidin.” Acta Physiologica Academiae ScientiarumHungaricae, 56(2), 235-240.
3. Brattstrom, E. L, Hultberg, L. B., & Hardebo, E. J. (1985, Nov.). “Folic Acid Responsive Postmenopausal Homocysteinemia.” Metabolism, (34)11, 1073-1077.
4. Colette, C., et al., (1988). “Platelet Function in Type I Diabetes: Effects of Supplementation with Large Doses of Vitamin E.” American Journal of Clinical Nutrition, 47, 256-61.
5. England, M. R., et al. (1992, Nov. 4). “Magnesium Administration and Dysrhythmias...A Placebo-controlled, Double-blind, Randomized Trial.” Journal of the American Medical Association, 268(17), 2395-402.
6. Felton, G. E. (1980, Nov.). “Fibrinolytic and Antithrombotic Action of Bromelain...” Medical Hypotheses (11)6, 1123-33.
7. Grundy, S. M. (1993, Apr.). “Oxidized LDL and Atherogenesis: Relation to Risk Factors...” Clinical Cardiology, 16 (4 Suppl.I), I3-5.
8. Hano, O. et al. (1994, June). “Coenzyme Q10 Enhances Cardiac Functional and Metabolic Recovery and Reduces Ca2+ Overload during Postischemic Reperfusion.” American Journal of Physiology, 266(6 Pt 2), H2174-81.
9. Heineke, et al. (1972). “Effect of Bromelain (Ananase) on Human Platelet Aggregation.” Experientia V. 23, 844-45.
10. Hendler, S. S. (1991). The Doctors’ Vitamin and Mineral Encyclopedia. NewYork: Fireside.
11. Jandak, et al. (1988, Dec. 15). “Reduction of Platelet Adhesiveness by Vitamin E Supplementation in Humans.” Thrombosis Research 49(4), 393-404.
12. Jialal, I., et al. (1991, Oct. 15). “Beta-Carotene Inhibits the Oxidative Modification of Low-density Lipoprotein.” Biochimica et Biophysica Acta, 1086(1), 134-8.
13. Jialal, I. & Fuller, C. J. (1993, Apr. 16). “Oxidized LDL and Antioxidants.” Clinical Cardiology, Vol. 16 (Suppl. I), I6-9.
14. Jialal, I., & Grundy, S.M. (1991, Feb.). “Preservation of the Endogenous Antioxidants in Low Density Lipoprotein...” Journal of Clinical Investigation, 87(2), 597-601.
15. Kamikawa, T., et al. (1985). “Effects of Coenzyme Q10 on Exercise Tolerance...” American Journal of Cardiology, 56, 247-251.
16. Kosolcharoen, P., et al. (1981, Nov.). “Improved Exercise Tolerance after Administration of Carnitine.” Current Therapeutic Research, 753-764.
17. Lawn, R. (1992, June). “Lipoprotein (a) in ...” Medicine, 12-18.
18. Mortensen, S.A.et al. (1985). “Long-term coenzyme Q10 therapy: A major advance in the management of resistant myocardial failure.” Drugs Exp. Clin. Res., 11(8), 581-93.
19. Nayler, W. G. (1980). “The Use of Coenzyme Q10 to Protect Ischemic Heart Muscle.” In: Yamamura Y., Folkners K., Ito Y., eds. Biomedical and Clinical Aspects of Coenzyme Q, Vol. 2, Amsterdam: Elsevier/North-Holland Biochemical Press, 409-425.
20. Press, R.I., & Geller, J., (1990, Jan.). “The Effect of Chromium Picolinate on Serum Cholesterol and Apolipoprotein Fractions in Human Subjects.” Western Journal of Medicine, 152, 41-45.
21. Rath, M. (1993). Eradicating Heart Disease. San Francisco: Health Now.
22. Rossi, C. S., & Silliprandi, N. (1982, Feb.). “Effect of Carnitine on Serum HDL Cholesterol: Report of Two Cases.” Johns Hopkins Medical Journal, 150(2), 51-4.
23. Schwarz, K. (1977, Feb. 2). “Silicon, Fibre, and Atherosclerosis.” The Lancet, 454-456.
24. Selhub, J., et al. (1995, Feb. 2). “Association Between Plasma Homocysteine Concentrations and Extracranial Carotid-artery Stenosis.” New England Journal of Medicine, 332(5), 286-291.
25. Somer, Elizabeth. (1992). The Essential Guide to Vitamins and Minerals. New York: Health Media of America.
26. Stampfer, M. J., et al. (1992, Aug. 19). “A Prospective Study of Plasma Homocyst(e)ine...” Journal of the American Medical Association, 268(7), 877-881.
27. Suadicani, P., Hein, H. O., & Gyntelberg, F. (1992, Sept.). “Serum Selenium Concentration...in a Prospective Cohort Study of 3000 Males.” Atherosclerosis, 96(1), 33-42.
28. Thomas, C. L. (Eds.). (1985). Taber’s Cyclopedic Medical Dictionary, (15th ed.). Philadelphia: F.A. Davis Company.
29. Tsuyusaki, T. et al. “Mechanocardiography of ischemic or hypertensive heart failure,” in Yamaura Y et al., Biomed. & Clin. Aspects of Coenzyme Q.2 Amsterdam, Elsevier/North Holland Biomedical Press, 1980, 273-88.
30. Verlangieri, A. J., & Stevens, J. W. (1979). “L-Ascorbic Acid: Effects on Aortic Glycosaminoglycan S Incorporation...” Blood Vessels, 16(4), 177-185.
31. Werbach, M. R. (1987). Nutritional Influences on Illness: A Sourcebook of Clinical Research. New Canaan: Keats Publishing, Inc.
32. White, R.R., et al. (1988, Jul-Aug.). “Bioavailability of 125I Bromelain after Oral Administration to Rats.” Biopharmaceutics and Drug Disposition, 9(4), 397-403.
33. Whitney, E. N., Hamilton, Nunnelly, E. M. (1984). Understanding Nutrition, (3rd ed.). St. Paul: West Publishing Company.
34. Willard, Terry, Ph.D. (1992). Textbook of Advanced Herbology. Calgary, Alberta, Canada: Wild Rose College of Natural Healing.
35. Xiang, H., Heyliger, et al. (1988, Nov.). “Effect of Myo-inositol and T3 on Myocardial Lipids and Cardiac Function in Streptozocin-induced Diabetic Rats.” Diabetes, 37(11), 1542-8.

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Important Information for Allergy Sufferers

Date: May 13, 2005 09:52 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Important Information for Allergy Sufferers

Important Information for Allergy Sufferers

Richard Conant, L.Ac. C.N.

Imagine you are one among millions who greet each spring with worry about the flood of pollen that fills the air this time of year. When the pollen season arrives, as it inevitably does, you find yourself with two choices. You can either take over-the-counter antihistamines and put up with unpleasant side-effects, or endure the sneezing, runny nose, itchy, watery eyes and other discomforts of hay fever.

If there was a natural ingredient, a nutritional substance found throughout nature in many foods and plants, that could offer an alternative, would you not be interested?

Quercetin, one among hundreds of flavonoids found throughout the plant kingdom, is this ingredient. Quercetin has been researched in numerous pharmacological studies. The results of this work strongly suggest that quercetin helps to stabilize the fundamental process in the body which causes an allergic reaction. Quercetin, as shown in test-tube ("in vitro") studies, prevents the release of histamine from "mast cells," immune cells that stand guard in the tissues which meet the outside environment—the nasal passages, the lungs, the digestive tract and skin. While this has yet to be confirmed by human clinical trials, in the picture that emerges from the research so far, quercetin looks like a rescue nutrient for allergy sufferers.

Reports from Quercetin Users

I have seen numerous reports from individuals who have indeed achieved significant reductions in allergic sensitivity by using quercetin. And this includes food allergies as well as environmental allergies. Anecdotal stories like these carry little weight among scientists, because they do not provide evidence that the observed result will be repeated in other cases. Only placebo-controlled, double-blind studies can produce this kind of scientific proof. Yet, when anectodal evidence (this includes physician "case reports") correlates with the results of pharmacological research such as we have on quercetin, I believe it should be taken seriously. And quercetin is a nutrient that works effectively when taken as a dietary supplement.

For example, one gentleman writes that his wife, who is allergic to pollen and dust, is now "sneeze-free" after using quercetin for three years. A Pennsylvania woman writes that her husband, also a long time allergy sufferer, "seems to be nearly allergy free" after one month of use. Another man says that "quercetin has literally changed my life." These are not isolated cases; a respected nutritionist who specializes in allergies and environmental problems has seen many similar outcomes with a quercetin. Clearly something significant is going on with respect to quercetin as a nutritional approach for overcoming allergies.

Bear in mind, though, that quercetin does not function like an antihistamine medication; it is not a quick fix. As a nutrient that helps to normalize body functions naturally, quercetin needs time to work, and should be taken for at least two or three weeks to achieve these results.

Quercetin Quiets the Allergic Response

Exerting a broad range of biological effects, quercetin is perhaps the most active and versatile flavonoid. In test-tube studies, quercetin acts directly on the mast cell in a way that quiets the allergic response.

An allergic reaction occurs when IgE antibodies, positioned on the mast cell surface, come in contact with a potential allergy-causing substance like pollen. The mast cell is then signaled to release histamine from storage granules located inside the cell, through a process called "degranulation." The histamine circulates throughout the body, causing the runny nose, itching and other discomforts associated with allergies.

Quercetin stabilizes mast cell membranes, in effect turning down the allergic response signal. Quercetin also slows other mechanisms which are involved with inflammation, such as the production of inflammatory prostaglandins and leukotrienes. This adds to its membrane-stabilizing effect, and its value in allergy control.

Quercetin appears to substantially raise the threshold for initiation of an allergic reaction. In allergy sufferers this threshold is low, for reasons which are not well understood. They may have more IgE antibodies than normal, making the mast cells overly "trigger happy." Histamine has its proper place in the immune response that defends us against truly harmful foreign substances in the body. But like many chemicals produced by the body, histamine is a two-edged sword. In allergy-prone individuals, the mast cells have become overreactive, releasing too much histamine, unnecessarily. With quercetin in the bloodstream, histamine release from mast cells is kept under control. Quercetin's ability to down-regulate both the inflammatory and allergic responses makes it, I believe, a highly important nutrient for humans to consume on a regular basis.

Quercetin-the Scientific Evidence

Several studies, published in respected journals such as the Journal of Allergy and Clinical Immunology and others, have demonstrated quercetin's ability to control the release of histamine from mast cells. (Quercetin has the same effect on basophils, a type of white blood cell that also contains histamine.) In these experiments, mast cells taken from both animals and humans are exposed in the test tube to various substances—called "antigens"— that stimulate histamine release. The researchers then add an inhibiting agent such as quercetin to the mixture and measure the differences in histamine output. Quercetin has shown itself to be one of the more powerful histamine inhibitors, more powerful, in fact, than disodium cromoglycate, an anti-asthma drug.

Quercetin has other beneficial properties. A strong antioxidant, Quercetin has a higher level of antioxidant activity than both vitamin C and vitamin E. (Quercetin enhances the antioxidant activity of vitamin C; quercetin and vitamin C are true synergists.) Quercetin has been shown to block the oxidation of LDL cholesterol by free radicals. Quercetin also protects cell membranes from being INJURED by oxidized LDL. The damage that oxidized LDL causes to the delicate membranes of blood vessel linings allows plaque deposits to form, setting the stage for atheroslcerosis. These observations point to quercetin as a key nutrient for maintaining cardiovascular health.

Like all flavonoids, quercetin is not classified as an essential nutrient, although flavonoids were once called "Vitamin P." In view of its many beneficial actions, quercetin is a nutrient that clearly has important roles to play in human nutrition, for allergy sufferers, and for everyone.

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