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How to make your own penicillin... just in case Darrell Miller 3/19/19
Does Acidophilus Interfere With Antibiotics? Darrell Miller 10/19/11
Hyssop Darrell Miller 9/3/09
Noni Fruit Extract Darrell Miller 11/22/08
Boost digestion with Bifidus Longum and Acidophilus Probiotics Darrell Miller 3/21/08
Big Pharma Plays God, Stealing and Altering Pant Compounds making Synthetic Drugs Darrell Miller 1/2/08
Allibiotic CF Fact Sheet Darrell Miller 12/7/05
New antibiotics expected for resistant pneumonia bugs Darrell Miller 10/10/05
HERBAL FIRST AID KIT Darrell Miller 7/11/05
Quercetin and Bromelain - for better health. Darrell Miller 7/4/05
INFECTIONS AND GARLIC Darrell Miller 6/25/05
GARLIC - NATURE’S ANTIBIOTIC Darrell Miller 6/25/05
HISTORY Darrell Miller 6/25/05
Home on the Range Darrell Miller 6/13/05
Acidophilus: Nature’s Antibiotic Darrell Miller 5/18/05
Multidophilus 180ct ... Darrell Miller 5/18/05




How to make your own penicillin... just in case
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Date: March 19, 2019 08:03 AM
Author: Darrell Miller (support@vitanetonline.com)
Subject: How to make your own penicillin... just in case





The concept of growing penicillin in one's home is foreign to most Americans, but with careful attention and consistent patience, it can certainly be done. In order to achieve this, you will need to grow mold on bread or old citrus peels until it is a blue-green hue. Then, you will need to separate the penicillin from the rest of the mold growth by the aid of 500 milliliters of tap water at a cool temperature, and lactose monohydrate, cornstarch, sodium nitrate, magnesium sulfate, and a few other important ingredients.

Key Takeaways:

  • Penicillin discovery, a landmark moment in modern medicine, has been shown to have saved many lives when used as an antibiotic.
  • Although making one’s own penicillin is possible, but it is not the recommended option if one has recourse to a doctor.
  • To make homegrown penicillin, one can put bread or citrus peels in a container to grow mold at around 70 degrees Fahrenheit.

"When your fruit or bread starts to develop a gray mold, you’re on the right track, but you need to wait until it turns a bluish-green shade to turn it to penicillin. When it gets to this point, you’ll then need to incubate it in a sterilized flask for about a week."

The easy way to make penicillin, and alternatives below:

Read more: https://www.naturalnews.com/2019-01-03-how-to-make-your-own-penicillin.html

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Does Acidophilus Interfere With Antibiotics?
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Date: October 19, 2011 03:43 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Does Acidophilus Interfere With Antibiotics?

Acidophilus

As a term, acidophilus is used for describing various bacteria which aids in the process of human digestion. These different types of bacteria namely are: L. acidophilus, L Casei, L Bulgaricus just to name a few. Lactobacilus acidophilus is a single part of these mixtures however when it is mixed with other good bacteria it is commonly referred to as acidophilus. These good bacteria also known as a probiotics (bacteria that is used for beneficial purposes for the human health) has been touted to have many health benefits. In fact some of these health benefits have been known for thousands of years. Acidophilus is naturally found all throughout the body and is most likely made its way into our food hundreds if not thousands of years ago. It has the ability to ferment in which eventually humans figured they could and should artificially duplicate and alas we did. One of the main functions of acidophilus is to eat up sugar when placed in a rich sugar environment and they convert it to various substances like lactic acid. This is how it is able to preserve food. It is able to lower down the pH of the food it is used in so that the flora is not as friendly to other bacteria. Yogurt is the most well-known example of food that uses acidophilus and that is where it gets that sour taste.

Antibiotics

Antibiotics simply mean if literally translated from its greek origins "against bacteria life forms" which is why it is commonly considered as an anti-bacterial substance. They are basically drugs that are used for the treatment for different types of infections which are caused by bacteria, the type of bacteria that are pathogens and not the probiotic ones. When our immune system fails in attacking and killing the bacteria that is attacking our body which does not happen often, we in turn will get ill and this is when we will need the help of antibiotics because that is its main function. The first ever antibiotic was penicillin, it was so amazing for a lot people that it was called the wonder drug when it first came in the mid 20th century. It was able to give hope to people that have infections that previously where life threatening but with the existence of penicillin they were alleviated of the symptoms in just a few days.

Acidophilus and Antibiotics

By now after reading what is above you will be able to conclude that Acidophilus can’t interfere with the work of Antibiotics. That is true because if anything the antibiotic will destroy the acidophilus because that is what an antibiotic does. It kills bacteria and unfortunately is not able to determine which are good and which are bad bacteria? So it will kill all bacteria that it comes into contact with. The recommendation is actually the other way around, avoid probiotic supplementation when you are taking antibiotics as well or if not make sure it is as far apart as possible to when you take antibiotics during the course of the day.

This is why it is important to take acidophilus while on antibiotics. Never take both at the same time. Allow 4 – 6 hours between application of antibiotics when taking acidophilus.

If you are on antibiotics, then grab yourself some probiotic acidophilus today!

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Hyssop
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Date: September 03, 2009 12:33 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Hyssop

The hyssop plant is a genus of about ten to twelve species of herbaceous or semi-woody plants in the Lamiaceae family. These plants are native to the east Mediterranean and to central Asia. They are aromatic and have erect branched stems up to 60 centimeters in length and covered with fine hairs at the tips. The leaves are about two to five centimeters long. The plant possesses small blue flowers that grow on the upper part of the branches during the summer.

Hyssop tea was used in ancient Babylon to reduce fever and for sore throats, colds, lung infections, and eye infections. Hyssop was recommended by Hippocrates for pleurisy. The word hyssop is of Greek origin, and means “holy herb.” The Bible even contains references to hyssop, but the actual identity of the plant is in question. More than two thousand years ago, Jewish priests used hyssop to cleanse the temple. Hyssop was also used to reduce perspiration and to treat dropsy and jaundice during the seventeenth and eighteenth centuries. Colonists brought hyssop to the New World, using it to treat colds and chest congestion.

This herb is most often used for lung ailments and fevers. Hyssop is extremely useful in lung disorders. Among these include bronchitis, chest congestion, hay fever, tuberculosis, and asthma. The herb also helps relax and expel phlegm from the lungs and relieve coughing. Hyssop helps promote sweating, which expels toxins through the skin. The leaves of the plant grow a mold which produces penicillin and may contribute to the herb’s healing abilities. Hyssop also contains essential oils that can help build resistance to infectious disease. The leaves of hyssop can be applied directly to a wound to stop infection and promote healing. Hyssop is generally found in a combination with other herbs.

This herb is a member of the mint family. It is believed to aid in digestion and also help relieve gas. History has a long history of use as a body purifier. The herb is able to strengthen the immune system. It also works as a blood pressure regulator. Some of the volatile oils that are found in hyssop may actually be responsible for its use in treating sore throats and also as an expectorant. Hyssop is thought to be effective for mild irritations. The herb has also been studied for the treatment of herpes simplex virus. It has been found to inhibit the growth of the virus. This can be attributed most likely to the tannin content.

The entire hyssop herb is used to provide carminative, diaphoretic, expectorant, febrifuge, galactagogue, pectoral, and stimulant properties. The primary nutrients found in this herb are Diosmine, flavonoids, marrubin, and tannins. Primarily, hyssop is extremely beneficial in dealing with congestion, coughs, hay fever, absent lactation, lung ailments, excessive mucus, phlegm, wheezing, and worms.

Additionally, this herb is very helpful in treating asthma, high blood pressure, bronchitis, bruises, intestinal catarrh, cuts, ear ailments, edema, epilepsy, fevers, hoarseness, jaundice, kidney problems, lice, sore throat, and spleen ailments. In order to obtain additional information on the many beneficial effects provided by hyssop, please feel free to contact a representative from your local health food store with questions.

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Noni Fruit Extract
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Date: November 22, 2008 09:34 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Noni Fruit Extract

Tahitian Noni juice can promote a healthy body in many ways. These Noni benefits are conferred by the phytochemicals contained within the fruit pulp, but before discussing the benefits of Noni let's first have a look at what it actually is.

Morinda citrifolia is also known as the Indian or beach mulberry tree, and is a member of Rubiaceae family. Although it originated in Southeast Asia, it has spread all the way to French Polynesia and the Dominican Republic. It is mainly cultivated in Tahiti for its fruit, known as cheese fruit or Noni fruit.

Although it is a staple food in some areas of the Pacific, it has a pungent smell and a bitter taste, and often eaten either raw or cooked only in times of famine. However, the fruit is particularly rich in phytonutrients, and many people swear by the Noni benefits it to maintain a glowing healthy body, free from disease and many of the health problems from which most people suffer.

The strange thing about it is the taste: you would not drink Tahitian Noni juice by choice, nor eat the fruit, so how were these Noni health benefits discovered? Hunger likely explains it: those forced to eat it through hunger were likely the lucky ones, who actually ate a nutritional diet even though they were eating a fruit normally eaten only in times of famine.

Among the conditions that Noni fruit is believed to protect you from are cardiovascular disease, high cholesterol levels, asthma, cholesterol, strokes, migraines, a weak immune system, arthritis and some cancers. Many of these conditions should give you a clue as to the nature of the phytochemicals contained within the fruit, since most of them involve free radical attack and immune system response.

Prior to examining thee diseases and conditions in detail, let's have a look at the chemicals the fruit has been established to contain. It is rich in dietary fiber, offering 100% of the Dietary Reference Intakes of the Institute of Medicine for each 100g serving, and also contains enough carbohydrate to meet 55% of you DTI needs. However, that is just the start.

The Noni pulp powder contains ten times the DRI of Vitamin C, and large quantities of Vitamin B3 niacin), potassium and iron. The Tahitian Noni juice itself contains few nutrients, and only the Vitamin C is retained to any useful level. It is therefore the pulp powder that offers the major nutritional benefit. In fact, because it has to be pasteurized at high temperature to meet regulations the for liquid product, Noni juice loses most of its nutritional content, and even the 31% Vitamin C content is surprising since that too is destroyed at high temperatures.

It is the high phytochemical content of Noni powder that renders it such an important supplement, and a scan down the following components will give you an idea of how the fruit got its reputation. The known Noni benefits are obtained from:

Lignans: these are phytoestrogens that have been reported to offer a reduced risk of ovarian and breast cancers, osteoporosis and also cardiovascular disease. They possess antioxidant properties and although reports as to their effectiveness are varied, they appear to have beneficial health effects.

Flavanoids: These are phenolics, including asperulodisic acid and rutin. The former is believed to be effective against certain cancers, while rutin, also contained in buckwheat, is a strong antioxidant that strengthens capillaries, and also helps to prevent atherosclerosis and heart disease.

Catechin and epicatechin: strong antioxidants that help prevent heart disease, strokes, diabetes and cancers. It also protects your skin against the harmful effects of the ultra-violet component of the sun's rays. Catechin is a form of flavanoid, and one of the more powerful of the antioxidants needed to destroy the free radicals that would otherwise ravage your body through the destruction of your body cells.

B-Sitosterol: a plant sterol that is believed to reduce the cholesterol in your blood, but still requires scientific proof, even though there is plenty of evidence to support its effect. Plant sterols are the basis of the cholesterol-lowering yoghurt drinks that you can but in your local supermarket.

This list is not exclusive, and there are several other phytochemicals found in Noni pulp powder that are believed to confer significant health benefits, but that are still seeking scientific support. The fact that such support has yet to be provided is not a reason to doubt their effectiveness, although the above benefits are sufficient to justify the reputation of this nutritional supplement that few have heard about.

There have been only around 110 reports on Noni research since the 1950s, so it is not surprising that the scientific proof is weak, although of these around 100 have appeared since the year 2000. Don't forget that there was no proof for the effectiveness of penicillin until it was discovered!

Even the biochemistry of the components of Tahitian Noni juice, such as the polysaccharides not mentioned in the above list, is in the early stages of research, and an increasing number of traditional remedies are being found to have a valid scientific and medical basis. These polysaccharides are a form of dietary fiber with probiotic properties that can be fermented by bacteria in the gut to form short chain fatty acids that possess many beneficial health properties.

Take the heterocyclic iridoids, for example. These are unknown to most people, yet they are found in many plants that have extensive medicinal properties, and might be responsible for many of them. They appear to possess anti-inflammatory, antiviral and antispasmodic properties, and support the cardiovascular system, the immune system and help to maintain a healthy blood sugar level. These are also contained in Noni pulp powder.

Another component of Noni fruit that most people have not heard of is damnacanthal. This inhibits certain tyrosine kinesis that basically have a controlling effect on the division of body cells. They particularly inhibit the Ras genes, responsible for some cancers due to uncontrolled cell division. Damnacanthal can prevent Ras genes from causing these cancers.

There are many more benefits that Tahitian Noni juice, or particularly the powdered Noni pulp, can confer, and it is recommended that it be taken as a supplement by anybody needing a general health tonic since it possesses such a wide variety of beneficial properties. The Noni benefits which those that use it enjoy area available to everyone, even though it is one of the lesser known of the beneficial health supplements.



--
Vitanet ®

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

--
Buy Probiotics at Vitanet ®, LLC

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Big Pharma Plays God, Stealing and Altering Pant Compounds making Synthetic Drugs
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Date: January 02, 2008 02:24 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Big Pharma Plays God, Stealing and Altering Pant Compounds making Synthetic Drugs

It has been claimed by the Nutritional Health Alliance (NHA) that the pharmaceutical companies are formulating their pharma drugs using natural plant-derived substances. This is not totally groundbreaking news, of course, since the whole pharmaceutical industry was based on natural products such as aspirin, derived from willow bark, and antibiotics derived from the penicillin mold.

While there is nothing wrong with them doing this, there are signs of their increasing lobbying to limit the supply of supplements so that Big Pharma can monopolize the production and supply of all supplements and remedies, natural or synthetic. What is disturbing is that bills such as the Adverse Event Reporting Bill, passed by Congress in February 2007 as the Dietary Supplement and Nonprescription Drug Consumer Protection Act, could conceivably place greater powers into the hands of the large pharmaceutical companies to restrict the sales of natural products that are not part of their ‘approved’ prescription range.

This Act requires users and distributors of over the counter and non-prescriptive natural remedies to report any adverse effects that they believe have been caused by the remedy they are using. What this does is to require untrained people to make medical decisions as to what is causing their adverse reaction.

A patient taking several prescription drugs and a vitamin supplement might naturally assume that it is the vitamin that is causing their reaction, since they will believe the drugs to be safe. Hence they will report the vitamin supplement as being the cause. Since the act does not oblige them to report reactions from prescription drugs, then this opens the door for Big Pharma to hijack plant compounds, and then alter them to make synthetic drugs.

The position of the FDA in all of this is dubious since that body has already made many decisions that favor the large pharma companies rather than the consumer, or producers of herbal remedies.

However, there is also the opposite view that the supplement industry is unregulated, and some degree of control is long overdue. While it is difficult to argue against this, it is the form of control that is in question and also the reasons behind it.

The pharmaceutical companies have long gained through America’s ill health, and it is to their advantage for Americans to become ill or suffer from the chronic diseases that come with a sedentary lifestyle and a diet of fast foods. The industry’s short-sighted approach has been to wait until people become ill and then treated them with expensive drug, rather than prevention that would ultimate lose them customers for their products.

A happy and healthy community, regularly taking supplements that keep them fit and well, is not to the advantage of pharmaceutical companies that prefer a depressed, unfit and sick American population to which they can sell their products. Hence the smear campaigns in the press regarding ‘uncontrolled’ natural remedies, untold bills in Congress, and what could end up as the ultimate revocation of our freedom to consume the natural products of our choice.

If we are taking two or three prescription drugs for a heart condition or to reduce the cholesterol levels in our body, and also an Omega-3 fatty acids capsule, we are urged to report the capsule if we have any side effects from the cocktail. Presumably on the basis that the drugs have been approved by the FDA, and so cannot possibly cause any side effects in us. A fish oil capsule is hardly likely to cause a heart attack, but many prescription drugs can if badly prescribed. However, it is the capsule that is likely to be fingered, banned and then included in a pharmaceutical product that is cleared by the FDA.

Those that take over the counter supplements, vitamins and herbal remedies are a threat and it is difficult not to become cynical about the intentions of such Acts of Congress and the people behind them. True, the supplement and herbal industry probably does require some form of regulation, but to phrase this in such a way as to require medically untrained people to report what they perceive as being the adverse effects of supplements rings of an intention to regulate by restriction or even banning.

When that occurs, Big Pharma will take these products and fashion them into expensive prescriptive drugs that are then approved for use by the FDA. What we were at one time able to purchase from our local health store we would now have to purchase at several times the price through prescription.

The health benefits of natural nutritional supplements are well documented, and the industry are now using methods to ensure standardization of the active ingredients where possible. However, this is not always possible with foodstuffs that do not always grow in standardized ways.

The Dietary Supplement Health and Education Act (DSHEA) was passed by Congress in 1994 to protect and preserve our rights to healthy supplementation of our diets with natural products of our choice. The FDA has systematically failed to enforce this and prosecute synthetic manufacturers who have not kept to the law. The FDA does not need new powers, but the funding to implement those already in existence.

Lobbying in Congress by interested parties should not be allowed to undermine the rights of all Americans of the freedom to consume the products that will provide them with a healthier lifestyle. The DHSEA is all that is needed to preserve this and to protect consumers from Big Pharma and their need to create conditions conducive to an increasing need for their products.

Yes, the health supplements industry likely needs some form of regulation to ensure standardization of products as far as is possible, but the way to do this is not to place medical decisions into the hands of the untrained. Do not forget that these are natural products, available freely from nature in fruit, vegetable and animal products, and are not synthesized in a laboratory as many of today’s drugs are.

However, give them a free rein, and Big Pharma will hijack these natural products, change them and then sell them to us at highly inflated prices to do the job that already do for us: keep us healthy.

--
Vitanet, LLC ®

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Allibiotic CF Fact Sheet
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Date: December 07, 2005 01:37 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: Allibiotic CF Fact Sheet

Allibiotic CF Fact Sheet

Neil E. Levin, CCN, DANLA 03/09/05

LIKELY USERS: People seeking support of the immune system and intestinal flora

KEY INGREDIENTS: Allicin (“AlliSure” patented, stabilized allicin from fresh garlic); Olive Leaf Extract (Olea Europaea with 18% minimum Oleuropein content); Elderberry extract, from fruit/berry, 60:1 concentrate (equivalent to 2,500 mg. of fresh berries of Sambucus nigra); Oil of Oregano (wild oregano from Origanum vulgare) ImmunEnhancer AG (trademarked Arabinogalactan from Larch Tree, Larix occidentalis)

MAIN PRODUCT FEATURES: AlliSure is the clinically tested, patented and stable form of allicin. Not allicin potential, but actual allicin. Allicin represents the immune supporting nutrients of raw garlic, and is chemically similar to penicillin, though with different physical properties. AlliSure shares garlic’s abilities to help maintain healthy cholesterol and blood pressure levels, and also has been shown to raise levels of a key T cell to enhance immune system function. Like raw garlic, AlliSure has antimicrobial properties linked to its ability to react with sulfur-containing metabolic enzymes. Allicin is also shown in studies to play a role in controlling blood sugar and abnormal cell growth.

Black Elderberries have strong antioxidant properties, containing flavonoids like anthocyanidins. They have been studied in relation to inhibition of viral replication and of minor inflammations.

Olive Leaf has been used as an antioxidant, cholesterol and blood viscosity regulator, and vasodilator. But its most important use has been as a way to help the body deal with undesirable organisms in the vital respiratory and intestinal areas.

Oil of Oregano (wild oregano, wild marjoram) contains carvacrol and thymol, which are responsible for much of its antimicrobial activities. It also has some anti-inflammatory effects.

Arabinogalactan from Larch tree bark (ImmunEnhancer AG) can help speed the immune system’s response to undesirable organisms and is often compared to Echinacea. It has also been shown to promote the growth of beneficial intestinal bacteria.

ADDITIONAL PRODUCT INFORMATION: Patented and trademarked ingredients enhance quality controls and have clinical research. Rosemary Oil provides antioxidant protection for the capsule contents. Enteric coating protects the capsule from stomach acid to deliver its contents past the stomach. This helps to assure full potency and reduces the possibility of the oils repeating.

SERVING SIZE & HOW TO TAKE IT: One softgel twice daily, preferably with meals. Try one before using the full dose.

COMPLEMENTARY PRODUCTS: Probiotics, Antioxidants, D-Flame

CAUTIONS: Pregnant & lactating women, children and people using prescription drugs should consult their physician before taking any dietary supplement. Discontinue use if any uncomfortable side effects occur. This information is based on my own knowledge and references, and should not be used as diagnosis, prescription or as a specific product claim.

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

REFERENCES:

ALLICIN:

Josling P. Preventing the common cold with a garlic supplement: a double-blind, placebo-controlled survey. Adv Ther. 2001 Jul-Aug;18(4):189-93. (AlliSure was used in this study.)

Abramovitz D, Gavri S, Harats D, Levkovitz H, Mirelman D, Miron T, Eilat-Adar S, Rabinkov A, Wilchek M, Eldar M, Vered Z. Allicin-induced decrease in formation of fatty streaks (atherosclerosis) in mice fed a cholesterol-rich diet. Coron Artery Dis. 1999 Oct;10(7):515-9. PMID: 10562920

Ankri S, Miron T, Rabinkov A, Wilchek M, Mirelman D. Allicin from garlic strongly inhibits cysteine proteinases and cytopathic effects of Entamoeba histolytica. Antimicrob Agents Chemother. 1997 Oct;41(10):2286-8. PMID: 9333064

Cellini L, Di Campli E, Masulli M, Di Bartolomeo S, Allocati N. Inhibition of Helicobacter pylori by garlic extract (Allium sativum). FEMS Immunol Med Microbiol. 1996 Apr;13(4):273-7. PMID: 8739190

Chowdhury AK, Ahsan M, Islam SN, Ahmed ZU. Efficacy of aqueous extract of garlic & allicin in experimental shigellosis in rabbits. Indian J Med Res. 1991 Jan;93:33-6.

Eilat S, Oestraicher Y, Rabinkov A, Ohad D, Mirelman D, Battler A, Eldar M, Vered Z. Alteration of lipid profile in hyperlipidemic rabbits by allicin, an active constituent of garlic. Coron Artery Dis. 1995 Dec;6(12):985-90. PMID: 8723021

Elkayam A, Mirelman D, Peleg E, Wilchek M, Miron T, Rabinkov A, Oron-Herman M, Rosenthal T. The effects of allicin on weight in fructose-induced hyperinsulinemic, hyperlipidemic, hypertensive rats. Am J Hypertens. 2003 Dec;16(12):1053-6. PMID: 14643581

Feldberg RS, Chang SC, Kotik AN, Nadler M, Neuwirth Z, Sundstrom DC, Thompson NH. In vitro mechanism of inhibition of bacterial cell growth by allicin. Antimicrob Agents Chemother. 1988 Dec;32(12):1763-8.

Focke M, Feld A, Lichtenthaler K. Allicin, a naturally occurring antibiotic from garlic, specifically inhibits acetyl-CoA synthetase. FEBS Lett. 1990 Feb 12;261(1):106-8.

Hirsch K, Danilenko M, Giat J, Miron T, Rabinkov A, Wilchek M, Mirelman D, Levy J, Sharoni Y. Effect of purified allicin, the major ingredient of freshly crushed garlic, on cancer cell proliferation. Nutr Cancer. 2000;38(2):245-54. PMID: 11525603

Patya M, Zahalka MA, Vanichkin A, Rabinkov A, Miron T, Mirelman D, Wilchek M, Lander HM, Novogrodsky A. Allicin stimulates lymphocytes and elicits an antitumor effect: a possible role of p21ras. Int Immunol. 2004 Feb;16(2):275-81. PMID: 14734613

Rabinkov A, Miron T, Mirelman D, Wilchek M, Glozman S, Yavin E, Weiner L. S-Allylmercaptoglutathione: the reaction product of allicin with glutathione possesses SH-modifying and antioxidant properties. Biochim Biophys Acta. 2000 Dec 11;1499(1-2):144-153. PMID: 11118647

Rabinkov A, Miron T, Konstantinovski L, Wilchek M, Mirelman D, Weiner L. The mode of action of allicin: trapping of radicals and interaction with thiol containing proteins. Biochim Biophys Acta. 1998 Feb 2;1379(2):233-44. PMID: 9528659

Sela U, Ganor S, Hecht I, Brill A, Miron T, Rabinkov A, Wilchek M, Mirelman D, Lider O, Hershkoviz R. Allicin inhibits SDF-1alpha-induced T cell interactions with fibronectin and endothelial cells by down-regulating cytoskeleton rearrangement, Pyk-2 phosphorylation and VLA-4 expression. Immunology. 2004 Apr;111(4):391-9. PMID: 15056375

Shadkchan Y, Shemesh E, Mirelman D, Miron T, Rabinkov A, Wilchek M, Osherov N. Efficacy of allicin, the reactive molecule of garlic, in inhibiting Aspergillus spp. in vitro, and in a murine model of disseminated aspergillosis. J Antimicrob Chemother. 2004 May;53(5):832-6. Epub 2004 Mar 24. PMID: 15044429

Tsai Y, Cole LL, Davis LE, Lockwood SJ, Simmons V, Wild GC. Antiviral properties of garlic: in vitro effects on influenza B, herpes simplex and coxsackie viruses. Planta Med. 1985 Oct;(5):460-1. PMID: 3001801

Uchida Y, Takahashi T, Sato N. [The characteristics of the antibacterial activity of garlic (author's transl)] Jpn J Antibiot. 1975 Aug;28(4):638-42. PMID: 1099271

Yasuo Yamada and Keizô Azuma. Evaluation of the In Vitro Antifungal Activity of Allicin. Antimicrob Agents Chemother. 1977 April; 11(4): 743–749.

ELDERBERRY:

Duke JA. CRC Handbook of Medicinal Herbs. Boca Raton, FL: CRC Press, 1985, 423.

Gruenwald J, Brendler T, Jaenicke C, et al. (eds). PDR for Herbal Medicines. Montvale, NJ: Medical Economics, 1998, 1116–7.

Mascolo N, Autore G, Capasso G, et al. Biological screening of Italian medicinal plants for anti-inflammatory activity. Phytother Res 1987;1:28–31.

Murkovic M, Abuja PM, Bergmann AR, et al. Effects of elderberry juice on fasting and postprandial serum lipids and low-density lipoprotein oxidation in healthy volunteers: a randomized, double-blind, placebo-controlled study. Eur J Clin Nutr. Feb2004;58(2):244-9.

Newall CA, Anderson LA, Phillipson JD. Herbal Medicines: A Guide for Health-Care Professionals. London: The Pharmaceutical Press, 1996, 104–5.

Yesilada E. Inhibitory Effects of Turkish Folk Remedies on Inflammatory Cytokines: Interleukin-1Alpha, Interleukin-1Beta and Tumor Necrosis Factor Alpha. J Ethnopharmacol. Sept1997;58(1):59-73. Youdim KA, Martin A, Joseph JA. Incorporation of the elderberry anthocyanins by endothelial cells increases protection against oxidative stress. Free Radical Biol Med 2000;29:51–60.

Zakay-Rones Z, Varsano N, Zlotnik M, et al. Inhibition of several strains of influenza virus in vitro and reduction of symptoms by an elderberry extract (Sambucus nigra L.) during an outbreak of influenza B Panama. J Alt Compl Med 1995;1:361–9.

OLIVE LEAF EXTRACT:

American Herbal Products Association. Use of Marker Compounds in Manufacturing and Labeling Botanically Derived Dietary Supplements. Silver Spring, MD: American Herbal Products Association; 2001.

Bennani-Kabchi N, et al. Effects of Olea europea var. oleaster leaves in hypercholesterolemic insulin-resistant sand rats. Therapie. Nov1999;54(6):717-23.

Bisignano G, et al. On the in-vitro antimicrobial activity of oleuropein and hydroxytyrosol. J Pharm Pharmacol. Aug1999;51(8):971-4. Gonzalez M, et al. Hypoglycemic activity of olive leaf. Planta Medica. 1992;58:513-515. Visoli F, et al. Oleuropein protects low density lipoprotein from oxidation. Life Sciences. 1994;55:1965-71. PDR for Herbal Medicines, 2nd edition. Montvale, NJ: Medical Economics Company; 2000:557.

Petroni A, et al. Inhibition of platelet aggregation and eicosanoid production by phenolic components of olive oil.Thromb Res. Apr1995;78(2):151-60. Pieroni A, et al. In vitro anti-complementary activity of flavonoids from olive (Olea europaea L.) leaves. Pharmazie. Oct1996;51(10):765-8. Zarzuelo A, et al. Vasodilator effect of olive leaf. Planta Med. Oct1991;57(5):417-9. OREGANO OIL (OIL OF OREGANO, WILD OREGANO, WILD MARJORAM):

Dorman HJ, et al. Antimicrobial agents from plants: antibacterial activity of plant volatile oils. J Appl Microbiol. Feb2000;88(2):308-16. Force M, et al. Inhibition of enteric parasites by emulsified oil of oregano in vivo. Phytother Res. May2000;14(3):213-4.

Hammer KA, Carson CF, Riley TV. Antimicrobial activity of essential oils and other plant extracts. J Appl Microbiol 1999;86:985–90.

Kelm MA, Nair MG, Strasburg GM. Antioxidant and Cyclooxygenase Inhibitory Phenolic Compounds from Ocimum sanctum Linn. Phytomedicine. Mar2000;7(1):7-13. Lamaison JL, et al. Medicinal Lamiaceae with antioxidant properties, a potential source of rosmarinic acid. Pharm Acta Helv. 1991;66(7):185-8.

Ponce MM, Navarro AI, Martinez GMN, et al. In vitro effect against Giardia of 14 plant extracts. Rev Invest Clin 1994;46:343–7 [in Spanish].

Stiles JC, Sparks W, Ronzio RA. The inhibition of Candida albicans by oregano. J Applied Nutr 1995;47:96–102.

Tantaoui EA, Beraoud L. Inhibition of growth and aflatoxin production in Aspergillus parasiticus by essential oils of selected plant materials. J Environ Pathol Toxicol Oncol 1994;13:67–72. ImmunEnhancer AG (Larch tree Arabinogalactan)

Corado J, et al. Impairment of Natural Killer (NK) Cytotoxic Activity in Hepatitis C Virus (HCV) Infection. Exp Immunol. 1997;109:451-457. Currier NL, Lejtenyi D, Miller SC. Effect over time of in-vivo administration of the polysaccharide arabinogalactan on immune and hemopoietic cell lineages in murine spleen and bone marrow. Phytomedicine. 2003 Mar;10(2-3):145-53. PMID: 12725568

Egert D, et al. Studies on Antigen Specificity of Immunoreactive Arabinogalactan Proteins Extracted from Baptisia tinctoria and Echinacea purpurea. Planta Med. 1992;58:163-165. Gonda R, et al. Arabinogalactan Core Structure and Immunological Activities of Ukonan C, An Acidic Polysaccharide from the Rhizome of Curcuma longa. Biol Pharm Bull. 1993;16:235-238. Hagmar B, et al. Arabinogalactan Blockade of Experimental Metastases to Liver by Murine Hepatoma. Invasion Metastasis. 1991;11:348-355. Kelly GS. Larch arabinogalactan: clinical relevance of a novel immune-enhancing polysaccharide. Altern Med Rev. 1999 Apr;4(2):96-103. Review. PMID: 10231609

Kim LS, Waters RF, Burkholder PM. Immunological activity of larch arabinogalactan and Echinacea: a preliminary, randomized, double-blind, placebo-controlled trial. Altern Med Rev. 2002 Apr;7(2):138-49. PMID: 11991793

Levine PH, et al. Dysfunction of Natural Killer Activity in a Family With Chronic Fatigue Syndrome. Clin Immunol Immunopathol. 1998;88:96-104. Robinson RR, Feirtag J, Slavin JL. Effects of dietary arabinogalactan on gastrointestinal and blood parameters in healthy human subjects. J Am Coll Nutr. 2001 Aug;20(4):279-85. PMID: 11506055

Rolfe RD. The Role of Probiotic Cultures in the Control of Gastrointestinal Health. J Nutr. Feb2000;130(2S Suppl):396S-402S.

Salyers AA, Vercellotti JR, West SE, Wilkins TD. Fermentation of mucin and plant polysaccharides by strains of Bacteroides from the human colon. Appl Environ Microbiol. 1977 Feb;33(2):319-22. PMID: 848954

Uchida A. Therapy of Chronic Fatigue Syndrome. Nippon Rinsho. 1992;50:2679-2683.



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New antibiotics expected for resistant pneumonia bugs
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Date: October 10, 2005 11:52 AM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: New antibiotics expected for resistant pneumonia bugs

New antibiotics expected for resistant pneumonia bugs

Scientists recently announced the expected arrival of a new family of bacteria-killers on the horizon for pneumonia and other diseases. These new antibiotics should offer an alternative to standard antibiotics, many of which have lost their punch against increasingly resistant germs.

The standard treatment today for many bacterial infections that cause respiratory diseases are medicines called macrolides. These include well-known antiobiotics like penicillin and erythromycin. However, certain bacteria strains are growing resistant to them, as well as to the primary back-up medicines, known as quinolones.

The pharmaceutical industry's response to this problem is ketolides. Ketolides are derived from macrolides, but since they have a different chemical composition, they will kill bacteria that are resistant to macrolides. Researchers recently presented reports on two varieties of ketolides at an infectious diseases meeting sponsored by the American Society for Microbiology. Aventis Pharmaceuticals recently filed with the U.S. Food and Drug Administration to gain permission to sell a new ketolide antibiotic, Ketek, or telithromycin. A similar drug made by Abbott Pharmaceuticals, code named ABT-773, is also in the early stages of human testing.

Researchers presented new Ketek studies involving 2,500 patients. These reports intended to show how the once-a-day Ketek is equally effective as other standard antibiotics in treating many bacterial diseases, including pneumonia, bronchitis, sinus infections and sore throats. Scientist also say since the Ketek treatment lasts just five days, which is shorter than most antibiotic treatments, bacteria may be less likely to grow resistant to the new drug.



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HERBAL FIRST AID KIT
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Date: July 11, 2005 09:44 PM
Author: Darrell Miller (dm@vitanetonline.com)
Subject: HERBAL FIRST AID KIT

HERBAL FIRST AID KIT

It is important to know the area where you will be going to determine plants that will be available in case they are needed and access to emergency help if necessary. The herbal first aid kit is meant to be used for minor conditions that may occur while traveling. Any serious condition should be seen by a health care professional. Gathering herbs along the trail can be fun as well as useful. Simple plant remedies can be brought along in the first aid kit. Major injuries require immediate medical attention by a professional. Minor problems can often be taken care of with simple herbal remedies. Supplies can be obtained from the local health food store or by collecting plants locally.

Along with the herbs, a few supplies should be part of the kit available at the local drugstore or market.


1. scissors
2. thermometer
3. band aids of all sizes
4. gauze
5. tweezers
6. blister kit
7. needle
8. moleskin for blisters
9. adhesive tape
10. first aid instruction manual
11. herbal first aid manual

ALOE VERA: Aloe is great for minor skin abrasions, burns and as a natural laxative. It is excellent to soothe and repair damage from a sunburn. Aloe can be applied to stings and bites to soothe and heal.

TEA TREE OIL: Tea tree oil is a natural antiseptic and contains many antibacterial, antifungal and antiviral properties. It helps to speed the healing process and is excellent to apply externally on wounds to promote healing and prevent infection. It is also a natural bug repellent and can soothe and promote healing after bites and stings.

ECHINACEA: One of the most often used herbs, echinacea is useful for pre venting infection by stimulating the immune function. It can be found in herbal salve preparations and applied directly to the wound. A salve can also be applied to skin irritations from contact with poison ivy or oak. LAVENDER: Lavender is a natural bug repellent and can be applied topically to bites and stings.

GINGER: Ginger root is excellent for an upset stomach. It is effective when used to combat motion and altitude sickness. Studies have found ginger to be just as effective when treating motion sickness due to riding in the car, boating or flying in and airplane, as over the counter remedies which often have side effects such as drowsiness. Ginger can be made into a tea or taken in capsule form. ARNICA: Arnica can be applied externally to areas of bruising and swelling, but not to broken skin. It can help to reduce inflammation.

PLANTAIN: A poultice of plantain can help reduce inflammation when applied to the affected area. It can also help with bites, stings, scratches and cuts. GARLIC: Along with being a natural antibiotic to help prevent infection, garlic also helps to keep mosquitoes away. They don’t seem to like the scent of garlic. Capsules or pills should be taken internally.

CAYENNE (CAPSICUM): This is effective for both internal and external bleeding. Externally, apply pressure and raise affected area. Sprinkle cayenne powder over the wound. MINT: Mint leaves, often found growing in the wild, can be made into a tea to help with digestion and calm the nerves. Some members of the mint family include peppermint, spearmint, catnip and horsemint.

FEVERFEW: This daisy like plant found growing in the wild, can help with migraine headaches and inflammation.

Chew the leaves, make into a tea or take in capsule form. Some have developed mouth irritations from chewing the leaves.

Tea Tree Oil Fights Staph Infection

There is much concern regarding the overuse of antibiotics leading to drug resistant strains of bacteria. Some forms of bacteria are difficult to control as they change form. Tea tree oil holds promise as an effective treatment for inactivating Staphylococcus aureus.

A study reported in the Journal of Antimicrobial Chemotherapy, (1995; 35: 421-45), and lead by Dr. C. F. Carson, researched tea tree oil at the University of Western Australia. The results were significant. Tea tree oil successfully inactivated the staph bacteria which was resistant to methicillin, a salt of penicillin. It is a versatile substance with a broad spectrum of capabilities. It is generally used topically.

Blueberries for Health

Blueberries are packed full of nutritional value. A study published in the Food and Nutrition Re s e a rch Br i e f s , January, 1997, found that two-thirds of a cup of blueberries had more antioxidants than the recommended daily amounts of vitamins E and C. Blueberries were followed by Concord grape juice, strawberries, kale and spinach in their antioxidant content.

Antioxidants are an important part of optimal health. They protect the body from free radical damage which can lead to a variety of conditions such as aging, cancer, heart disease and other diseases. Adding blueberries could aid in p rotecting the body and strengthening the immune response.

Worldwide Concern About Antibiotic Overuse

A recent report called for doctors throughout the world to be careful in administering antibiotics needlessly. Overuse of antibiotics has lead to germ mutations resistant and untreatable with current antibiotics. Pediatricians in the United States have received a brochure from the American Academy of Pediatrics urging them to take precautions before prescribing. Antibiotics are not always the answer as they do not work on viral infections which cause the common cold, sore throats and some ear infections. Staphylococcus aureus is one example of an antibiotic resistant strain. Over 90 percent of this staph strain are resistant to penicillin and other antibiotics. And other bacteria are also developing a resistance to antibiotic therapy. Save antibiotics for conditions that require their use.

Aloe Vera, Woodland Health Series

Aloe vera is one of the most widely used plants for medicinal purposes. It has been used for over 4,000 year for its therapeutic benefits. Aloe Vera, a pamphlet written by Deanne Tenney, offers valuable information and up to date research on the aloe vera plant.

The benefits of the aloe plant are truly amazing. It has been used to treat burns, radiation burns, skin disorders, wounds, scratches, sunburn, dermatitis, constipation, digestion, ulcer, kidney stones, bacterial and viral infections, and to relieve pain. It is widely used for skin disorders, but its benefits go far beyond the skin.

As a natural home remedy, there are few plants more valuable than the aloe. It is a simple and easy way to treat minor injuries. The plant contains antiseptic, antiviral, antibacterial, anesthetic and tissue healing properties. The Aloe Vera pamphlet offers historical as well as modern uses for this ancient plant. Aloe Vera is available through Woodland Publishing.

Tea Tree Oil, Woodland Health Series

Tea tree oil is derived from the leaves of the Melaleuca alternifolia, a shrub-like tree found in Australia. It contains significant medicinal value and beneficial properties. Another pamphlet in the Woodland Publishing Health Series, Tea Tree Oil offers historical uses as well as current scientific information.

The essential oil of the tea tree leaves is one of the most powerful essential oils. It is used extensively in Australia, and popularity is growing throughout the world. It contains antibacterial, antiviral, and antifungal properties helping to prevent and heal infection.

Tea tree oil has been used successfully for many conditions such as athlete’s foot, acne, burns, warts, vaginal yeast infections, ringworm, skin rashes, herpes, cold sores, canker sores, insect bites and in preventing infection to name a few. Tea tree oil is a natural alternative that can be used effectively for extended periods of time without.



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

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

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

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

    Maintains Tissue Comfort by Regulating Enzymes*

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

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

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

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

    Helps Maintain Normal Blood Viscosity*

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

    Bromelain May Enhance Quercetin Absorption

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

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

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



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    INFECTIONS AND GARLIC
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    Date: June 25, 2005 10:12 AM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: INFECTIONS AND GARLIC

    INFECTIONS AND GARLIC

    Bacterial Infections

    With the advent of modern antibiotic drugs, garlic lost its status as an effective infection fighter. Unfortunately, Garlic’s past track record was diminished by the arrival of new and potent antibiotics like penicillin. Ironically, several years ago, garlic was reported to be more valuable than penicillin when treating throat infections.26

    One reason for this may be that the allicin component of garlic is effective against the streptococci bacteria. Traditional Oriental medicine utilized garlic in a variety of forms to treat all kinds of infections: garlic juice for typhoid, and meningitis, garlic vapors for whooping cough, garlic suppositories for yeast infections and garlic soup for pneumonia.27 According to studies in the Journal of the National Medical Association, Garlic has proved its ability to act as a potent antibiotic against various gram-negative, gram-positive and acid fast bacteria.

    In view of the fact that garlic has even been shown to be effective against some antibiotic-resistent organisms, it should be utilized more in standard medical treatments. Several medical practitioners have discovered that like throat infections, ear infections also respond nicely to garlic. The great advantage of using garlic over antibiotics is that Garlic will not kill friendly intestinal bacteria or make one more susceptible to future infections. Antibiotics will. In cases where antibiotics are deemed necessary, they should at the very least be supplemented with garlic.

    Current research supports the fact that garlic does indeed inhibit bacterial growth.28 Several strains of Mycobacterium are suppressed by the presence of garlic. For anyone who fights chronic bladder infections, garlic may prove invaluable. It has been shown to inhibit the growth of several organisms associated with urinary tract infections.29

    Evidence suggests that garlic can effectively treat bacterial ear infections, sore throats, and infected wounds. Several reports have shown that aged garlic extract is particularly effective for the kind of ear infections that children are prone to develop. (Note: Ingesting raw garlic is not a practical way to utilize its allicin compounds as an effective antibiotic. Too much raw garlic would be required to be effective.)

    Viral Infections

    It is common knowledge that as of now, viruses do not respond to antibiotics and are extremely resistent to other forms of treatment. A virus usually has to run its course, as those of us who suffer periodically from colds and flu know all too well. Because viruses are so hardy, it is important to know that garlic possesses antiviral as well as antibacterial properties. Dr. Andrew Weil M.D. states that the best home remedy he has found for the treatment of colds is to eat several cloves of raw garlic at the first indication that a cold is developing.30 Several laboratory tests have shown that garlic is an effectual treatment for both the influenza B virus and herpes simplex virus.31

    Two independent researchers in Japan and Romania have found that garlic is able to protect living organisms form the influenza virus.32 Chinese scientists have studies the effect of garlic on viral encephalitis for almost 30 years.

    Clarissa McCord of Cloverdale, British Columbia used garlic extract to treat a stubborn virus that attacks horses. She relates:

    “A bottle of liquid garlic administered on two successive days to each animal does the job of curing. One of my race hors es developed the virus symptoms and was to be scratched from the racing program scheduled for the following day. I gave one bottle of liquid garlic to the animal and he improved sufficiently to enter the race. He hit the board first, second and third.”33

    In relation to human beings, it would seem that Garlic is especially effective in cases of influenza as both a treatment to shorten the duration of the disease and as a preventative. Again, garlic’s ability to stimulate the immune system seems intrinsically linked to its anti-viral action. Whether the infection is bacterial or viral, garlic mobilizes immune function, thereby potentiating the body’s ability to defend itself against infectious organisms.

    Fungal Infections

    Garlic in certain forms is considered a potent antibiotic and can be particularly effective against certain fungal infections. Like viruses, fungal infections are particularly difficult to treat . Traditional medical treatments for fungal infections are usually toxic and can be ineffectual over the long term. To the contrary, garlic has proven itself as an effective anti-fungal agent against candida, aspergillus and cryptococci.

    A report from a Chinese medical journal delineates the use of intravenous garlic to treat a potentially fatal and rare fungal infection of the brain called cryptococcal meningitis. In the report, the Chinese compared the effectiveness of the garlic with standard medical treatment which involved a very toxic antibiotic called Amphotericin-B. The study revealed that intravenous garlic was more effective than the drug and was not toxic regardless of its dosage.34

    One study using liquid garlic extract found that candida colonies were substantially reduced in mice that had been treated with the garlic. This same study also revealed that garlic stimulated phagocytic activity. This implies that infections such as candida may be controlled because garlic stimulates the body’s own defenses. Applied externally, garlic oil can be used to treat ringworm, skin parasites and warts. Lesions that were caused by skin fungi in rabbits and guinea pigs were treated with external applications of garlic extract and began to heal after seven days.35

    Allicin is primarily a fungistatic substance which can slow or completely stop the proliferation of the microorganisms. As an external treatment, garlic has also been found to effectively treat acne and thrush.

    (https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=435)


    GARLIC - NATURE’S ANTIBIOTIC
    TopPreviousNext

    Date: June 25, 2005 10:06 AM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: GARLIC - NATURE’S ANTIBIOTIC

    GARLIC NATURE'S ANTIBIOTIC

    Russians commonly refer to garlic as “Russian penicillin” and use it extensively in their clinics and hospitals. They do not hesitate to prescribe it in every conceivable form including vaporizing it for inhalation. Medical doctors in Russia routinely advise their people to consume plenty of onions and garlic as a disease preventing measure.

    Scientists in Russia and elsewhere have studied the antibiotic properties of garlic. Clinical tests using garlic extracts on infected wounds found that treatment with the phytocides of garlic resulted in an increase of RNA and DNA levels as well as a significant inhibition of bacterial growth. Consequently, the wound healed faster.25 In addition to its sulfur-containing compounds, six percent of the dry weight of garlic is made up of specific bioflavonoids known as quercitin and cyanidin. Continually emerging research is finding that these bioflavonoids have tremendous value in the treatment and prevention of diseases and infection.

    Indian studies have established that the active factors in garlic including allistatin I and allistatin II are powerful agents against staphylococcus and escherishiacoli (E. coli) bacteria. For this reason, in Russia, garlic is routinely used to treat whooping cough, grippe and a whole host of infectious diseases.

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    HISTORY
    TopPreviousNext

    Date: June 25, 2005 09:58 AM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: HISTORY

    HISTORY

    For thousands of years amazing magical and medicinal powers have been attributed to garlic. Prized as a legendary protectant against vampires in Transylvania, it has also been used to enhance sexual prowess and fight off infections. Referred to as “the stinking rose,” it is mentioned in Bible, the Talmud, and in the Odyssey by Homer as well. The Egyptians looked to garlic as a tonic which boosted physical strength and consumed it while building the pyramids. The Greeks utilized its laxative properties, and the Chinese prescribed it for high blood pressure. Vikings and Phoenicians alike extolled the virtues of garlic and used it both for flavoring foods and treating disease.

    Garlic is a hardy, perennial bulb which is native to the Mediterranean regions of Africa and Europe. Along with onions, leeks, chives and shallots, garlic is a member of the lily family. The botanical name for garlic, allium sativum may have been derived from the celtic word all which refers to “pungent.” The edible portion of the garlic plant grows underground and consists of a cloved bulb.

    Hippocrates believed that garlic could treat uterine cancer and Native Americans used it for stomach cancer. During the Bubonic Plague years in Europe, garlic was used to boost immunity against the infectious organism responsible for so many deaths. Several accounts relate that survivors of the plague were frequently those who had routinely ingested large amounts of garlic. A sixteenth- century herbalist writes, referring to garlic, “The virtue of this herb is thus. It will unbind all wicked winds within a man’s body.”1

    During the eighteenth century, Russians utilized garlic to treat influenza. Eventually, garlic would become known as “Russian penicillin.” American colonists regarded garlic for its ability to kill parasites.

    In the nineteenth century, Louis Pasteur finally proved scientifically that garlic contains antibiotic properties. His discovery led to the initiation of hundreds of studies which have substantiated his findings. What was thought to be nothing more than a culinary ingredient has medicinal value. Garlic can effectively kill bacteria, fungi, viruses and parasites. In the late nineteenth century, garlic was routinely used by physicians as an effective treatment for typhus, cholera and whooping cough. It was highly recommended by medical practitioners and considered as staple treatment for infection. Albert Schweitzer used garlic for treating amebic dysentery in Africa. Early in this century, tuberculosis was treated with garlic and it was also used as an antibiotic/antiseptic for wounds during World War II. American and European doctors alike noted a remarkable high cure rate in tuberculosis patients treated with garlic.

    2 Septic poisoning and gangrene, which can so quickly develop in battlefield wounds were prevented to a significant degree by using garlic. During the 1950’s Chinese scientists used garlic to successfully treat influenza. Subsequently, western studies found that garlic was an effective treatment for the common cold. Today the widespread use of antibiotics have relegated garlic to the back burner of medicinal therapies for infection. The discovery of penicillin resulted in classifying garlic as nothing more than a folk remedy. Unfortunately, for several decades its medicinal potential was no longer taken seriously by scientists. Over the last decade, scientific interest in garlic has dramatically escalated. In 1990, the First World Congress on the Health Significance of garlic and Garlic Constituents was held in Washington D.C. Herbalists have always considered garlic as an effective treatment and preventative agent against colds, flu and other infectious diseases. The present focus on garlic as a medicinal agent promises to support the notion that garlic should be utilized by medical practitioners much more than it currently is.

    Recently, medical research has focused on garlic’s potential value in treating cardiovascular disorders and as an anti-cancer agent. This renewed interest in garlic has contributed to the development of the “Designer Foods Program” which is sponsored by the National Cancer Institute.3 This agency investigates foods that may be effective cancer preventatives. Garlic is one of those foods which may have profound cancer prevention potential.

    (https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=427)


    Home on the Range
    TopPreviousNext

    Date: June 13, 2005 03:52 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: Home on the Range

    Home on the Range

    by Janis Jibrin, RD Energy Times, September 5, 1999

    Got chicken? Americans can't seem to get enough of this bird. Last year each of us ate, on average, just about 80 pounds of chicken, a whopping increase over the 49 pounds we each devoured in 1980 and an eight-pound increase from 1995. Part of this food's popularity comes from its lean image as a healthier, less fatty alternative to red meat (don't forget to take the fatty skin off). Chicken's also a cheap protein source: At many popular supermarkets you'll find weekly specials at about a dollar a pound.

    But at health food markets, chicken can cost upwards of $1.69 a pound. These birds may be touted as raised in an organic, stress-free environment and on a vegetarian diet, free of antibiotics. For many people, this poultry is a better buy.

    The Alternative Chicken

    Most of the supermarket chicken you pick up in grocery refrigerated cases are broilers, birds bred to mature in about eight weeks. In comparison, in the '60s, chickens needed 14 weeks to become adult poultry. Conventionally-raised broilers eat grain mixed with whatever's cheapest on the market, such as recycled cooking oil that's been used to fry fast foods and animal parts.

    These birds reside in chicken coops the size of football fields and don't see the light of day until transported to the slaughterhouse. On the other roost, alternatively raised chickens are brought up in a variety of ways (see box), but usually enjoy a more relaxed life and diet.

    Chickens on the farm receive antibiotics for two reasons: To fight off the diseases that can run rampant through a crowded chicken coop and to encourage faster growth.

    Antibiotics Stimulate Growth

    Mark Cook, PhD, professor of animal science at the University of Wisconsin at Madison, explains, "Gut bacteria trigger an immune system assault, which makes chickens a little feverish, suppresses appetite and slows growth. Antibiotics stimulate growth indirectly, by keeping bacteria levels down, and preventing the immune reaction." When birds get sick, they often get dosed with even more antibiotics.

    This widespread antibiotic use has come home to roost and may contribute to the growth of bacteria that, frequently exposed to chemicals, have evolved ways to keep from being killed by pharmaceuticals.

    This development threatens human health. Bacterial infections that people contract, once easily cured by penicillin or other drugs, are now tougher to eradicate. For instance, campylobactor, a common bacteria found in chicken, and responsible for some food poisonings, now demonstrates signs of resistance to drugs like floroquinolones. A powerful class of antibiotics, floroquinolones used to dependably conquer this infection.

    "Floroquinolones are an extremely important class of antibiotics, used to treat many types of infections such as urinary tract infection, a wide variety of gastrointestinal illnesses, pneumonia, almost everything," says Kirt Smith, DVM, PhD, epidemiologist, acute disease epidemiology section, Minnesota Department of Health.

    A study by Dr. Smith, published in the New England Journal of Medicine (340, 1999: 1525-32), showed that the percent of floroquinolone-resistant campylobactor appearing in infected people in his state-Minnesota-climbed from a little over 1% in infected people during 1992 to 10.2% in 1998. He and other scientists strongly suspect that the rise is a direct consequence of the Food and Drug Administration's (FDA) decision to allow floroquinolones in poultry feed beginning in 1995.

    Although it was nearly impossible for Dr. Smith to trace the precise origin of campylobactor poisoning, he believes chicken was usually the source-and not just U.S. chicken. Many of the infected people had returned from Mexico and other countries.

    "Sales of floroquinolones for poultry use in Mexico has increased dramatically," notes Dr. Smith.

    Many alternative chicken producers do not use any antibiotic-laced feed at all. Other farmers adjust the feed to lower gut pH, making it more acidic and lowering chances of bacteria. At the U. of Wisconsin, Dr. Cook is developing antibodies to suppress the immune response to bacteria so chickens won't need antibiotics to spur growth. Buying and dining on chicken raised with little or no antibiotics could beneficially lower your risk of contracting a hardy bacterial infection. Better to catch campylobactor from an antibiotic-free chicken than a conventional chicken, speculates Dr. Cook. "There's less likelihood the bug will be resistant, and a better chance your problem can be cured with antibiotics," he explains.

    And, looking beyond your own immediate health risk, buying antibiotic-free chicken makes a small contribution to stopping the spread of antibiotic resistant bugs. A Matter of Taste Conventionally raised chickens get little exercise and live only eight weeks, so they're tender but bland.

    "There's not much taste in a modern chicken. Free range or organically grown, older birds usually have more taste," notes Dr. Cook.

    The days of barnyard chickens happily clucking and strutting around in picturesque nature have disappeared with the family farm. Today, chickens lead a meager existence. After hatching, baby chicks are tossed into a gigantic hen house that is home to up to 30,000 birds. Their short lives are lived within the United States Department of Agriculture (USDA) mandated 3/4 square foot per chicken. In that squeeze, birds can catch "chicken influenza," especially in winter when it's too cold to let in much fresh air.

    Laying hens don't experience much more of a peaceful existence. These birds live their years with about five other hens, so crowded they can't flap their wings. Cages, suspended in the air, let eggs roll into a holding area. So they don't peck each other, hens are often debeaked, a painful process that can cause infection.

    Hens go through natural laying and "dry" cycles. Growers manipulate this cycle by "forced molting," depriving hens of food for four to 14 days to keep them constantly laying. By the end of two years, hens are worn out. Their inactivity weakens their bones enough that electrical stunning, the usual method for knocking chickens out before slaughter, shatters their bones. So some wind up being plucked and boiled alive, according to Mary Finelli, program director for farm animals and public health at the Humane Society of the United States. The meat from these hens, tougher than other birds, was probably in your deli lunch sandwich. It's also used in the school lunch program or may end up in dog food.

    "Generally, organically-grown broilers and hens have it better because room to move is part of the organic certification process," says Finelli. Finelli suggests visiting chicken suppliers to find out how chickens are treated. Or, she advocates a Humane Society book listing reliable firms. For a local producer call the society: 202-452-1100. According to a Consumer Report report, some growers force chickens out the last week of their lives to brand them "free range." So free range isn't a prime standard for choosing a decently raised chicken. However, turkeys thrive outdoors, so choosing free-range turkey is often a good idea for better tasting poultry.

    In any case, organic is your best bet for chicken without pesticides. Make it your main choice for your 80 pound yearly consumption!

    To fight cruel treatment of poultry:

    • Forced Molting Ban. Forced molting is shocking hens for more eggs. To support petitions banning forced molting write: Docket Manage-ment Branch, FDA, Dept. Health & Human Serv-ices, 12420 Parklawn Drive, Room 1-23, Rock-ville, MD 20857. Include docket # 98P-0203/CP

    • Downed Animal Protection Bill (House Bill 443, Senate Bill S515) spares some animals from the tortuous journey from chicken house to slaughterhouse. Mandates humane euthanization.



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    Acidophilus: Nature’s Antibiotic
    TopPreviousNext

    Date: May 18, 2005 05:51 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: Acidophilus: Nature’s Antibiotic

    Acidophilus: Nature’s Antibiotic

    Lactobacillus acidophilus has been found to contain antibiotic properties. According to Dr. Khem Shahani, a professor of food science at the Un i versity of Nebraska, milk fermented by Lactobacillus acidophilus contains an antibiotic he calls “acidophilin.” It is a powerful antibiotic with similar abilities as penicillin, streptomycin and terramycin. He actually believes that it is more powerful than the antibiotics mentioned.7 Detrimental bacteria invade our bodies on a daily basis. Supplementing with either yogurt containing live cultures or a freeze dried capsule may be necessary to protect the body. Lactobacillus acidophilus can protect the digestive system from microorganisms causing infection and disease. It is a supplement that can help protect the body and work as “nature’s antibiotic.”

    YOGURT

    Plain yogurt is basically a combination of milk and Lactobacillus acidophilus, the friendly bacteria. This is the bacteria that produces lactase which aids in the process of curdling the milk and giving yogurt its tart flavor. Yogurt containing live cultures of Lactobacillus acidophilus have been found effective in treating vaginal yeast infections, infant diarrhea, food poisoning,and in preventing flu infections.8 Yogurt must contain the live, active cultures of Lactobacillus acidophilus to be beneficial. The intestinal flora can be disrupted by conditions such as antibiotic therapy, stress, a poor diet, excess sugar consumption, and oral contraceptives. This friendly bacteria is not destroyed by the acidic gastric juices in the stomach and protects the body by adhering to the intestinal wall. Yogurt is a great way to add the beneficial bacteria often needed in the body. Some physicians recommend plain yogurt to patients undergoing antibiotic therapy to counteract the negative effects of the antibiotic. Many of the commercial brands of yogurt found in the neighborhood grocery store do not contain live, active cultures. Check carefully to assure the best quality available. Most health food stores have specialty brands with live cultures.

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    Multidophilus 180ct ...
    TopPreviousNext

    Date: May 18, 2005 05:30 PM
    Author: Darrell Miller (dm@vitanetonline.com)
    Subject: Multidophilus 180ct ...

    There is no doubt that antibiotics have saved numerous lives since their development. But many health care providers in the past have seen them as a panacea for all ailments including viral infections that are not affected by antibiotic therapy. They have been overused and with disastrous results. Antibiotics are used to help the body in fighting infection, but unfortunately, they also may encourage recurrent infections caused by a destruction of the good as well as the bad bacteria lowering the immune function and leading to a dependence on antibiotics. Because of an overuse and misuse of antibiotics, some forms of bacteria are now resistant to them. Diseases which were aided with antibiotic therapy are now resistant to the treatment. Antibiotics are sometimes prescribed by physicians even when they are not appropriate.4

    Medical professionals almost felt guilty a few years ago when not prescribing some form of antibiotic when patients visited the office. After all, what good is a doctor if the patient does not leave with a cure. Fortunately, most doctors now know the detrimental affects that can follow excessive and inappropriate use of antibiotics. Most doctors now will be honest and up front with their patients when there is not a cure-all answer to their problem. An investigative reporter a few years ago visited a number of physicians around the country asking for antibiotics. It was interesting to note

    that almost all of the physicians agreed to prescribing antibiotics upon the patients request even when it wasn’t warranted. In being confronted after, most replied that they had to do what the patient asked in order to keep their practice flourishing. No wonder antibiotic overuse has resulted in drug-resistant strains of bacteria. The negative affects of antibiotics are well known. Antibiotics interfere with the growth of bacteria, both good and bad. But they are crafty creatures and have the ability of changing their chemistry and genes to avoid destruction by antibiotics. They want to survive and thrive. They grow at a very rapid rate allowing for a whole generation of drug resistant strains to develop in just a relatively short period of time. Alexander Fleming, who discovered penicillin, warned of the problem that could occur with resistant strains if antibiotics were overused.5 The weaker bacteria may be killed while the stronger endure. This causes the strong, resistant bacteria to invade and take hold in the body. Mitchell L. Cohen, a researcher with the National Center for Infectious Diseases at the Centers for Disease Control, issued this warning about antibiotics in 1992: “Unless currently effective antimicro b i a l agents can be successfully preserved and the transmission of drug-resistant organisms curtailed, the postantimicrobial era may be rapidly approaching in which infectious disease ward housing untreatable conditions will again be seen.” Patients, doctors, scientists and Acidophilus

    public health officials must all play their part in finding ways to reduce reliance upon antibiotics.6 Lactobacillus acidophilus is one of the most essential bacteria found in the intestinal tract. It helps to keep the disease causing organisms under contro l . Antibiotics can reduce the quantities of good and bad bacteria often allowing negative organisms to flourish. Broad spectrum antibiotics are the worst offenders often making way for an overgrowth of yeast which can affect the entire body. The broad spectrum antibiotics work just as they are called, broadly throughout the body, to kill just about all the bacteria around. If an antibiotic is warranted, the most specific type for the condition should be tried first in order to protect as much of the normal intestinal flora as possible. When taking antibiotics, Lactobacillus acidophilus can be taken by mouth to help restore normal intestinal flora. Acidophilus will not interfere with the effectiveness of the antibiotics but protect and aid in the healing process. Antibiotic use should be minimized; used only when essential to health and survival. The beneficial bacteria are the first to be destroyed from the antibiotic therapy. Lactobacillus acidophilus can also help to fight the bad bacteria and organisms that invade the body.

  • Natures AntiBiotic - Multidophilus 12 Probiotic Supplement 100ct

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