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Monolaurin The Most Beneficial Compound in Coconut Oil?
January 11, 2019 08:19 AM
We're constantly hearing about the benefits associated with coconut oil, but many of us are unaware of what actually causes coconut oil to be so healthy for our bodies. The main compound found in coconut oil that has positive health benefits is called monolaurin. Monolaurin derives from lauric acid, and it is able to kill off viruses and bacteria due to it being a natural antimicrobial. It can also help in preventing the phenomenon known as antibiotic resistance.
"In nature, lauric acid is a precursor to monolaurin, which is an even more powerful antimicrobial agent than lauric acid. When your body digests lauric acid, certain enzymes within the digestive tract form this beneficial monoglyceride known as monolaurin."
Read more: https://draxe.com/monolaurin/
Can Serrapeptase Help Break Down Cholesterol?
December 01, 2012 11:22 AM
When we think of silk worm the first thing that comes to our mind is clothing and not disease treatment. The serrapeptase enzyme derived from the silk worm has been used by people around the world to treat various conditions as well as lower the levels of bad cholesterol. The few trials that have been conducted are mixed though it has a future in the reduction of cardiovascular disease. High levels of cholesterol should not be ignored as it is dangerous and serious. Choosing the natural ways will really pay.Formation of plaque in the arteries involves the deposit of fibrin, calcium, cellular waste products, cholesterol and fatty acid in the inner lining of the artery and would result to complete or partial blockage of the artery.
Reduce plaque buildup with silkworm enzymes
Medications do have side effects and one has to look for other ways to lower the LDL cholesterol and increase the levels of HDL cholesterol. This enzyme doesn't interfere with the synthesis of the cholesterol, but instead keeps a vital tissue form the wall of arteries and has anti-inflammatory properties. In its pure state the cholesterol is an antioxidant and it is necessary for the hormonal systems of the body. Medications blocking its biosynthesis cause liver damage and compromise the other soft tissues. Serrapeptase is the natural way to clear off this bad cholesterol
Why is It so Important to Give Your Child a Multiple Vitamin Mineral Supplement
March 11, 2011 11:42 AM
Giving a multiple vitamin and mineral supplement to your child is tantamount to protecting him or her from the unknown dangers of malnutrition. It is a fact that children are picky eaters. Besides, not all food that you put on the table provides all the nutrients that they need. Experts remain divided over the need to give children daily multivitamins, but it is a common belief that doing so is just the prudent choice to make as parents. Does it make any difference? Yes, it does. Research has pointed to the positive effects of vitamin supplementation, and it has been cited a lot of times that the bioavailability of these supplements is not bad at all. This means supplementation does contribute to the well-being of your child.
Ensures to Meet Nutrient Needs
It is not a myth that our diet does not contain all the nutrients that we need. More often than not we are not getting the daily value for all vitamins and minerals as most of us are not able to monitor our eating habits. Also, we don’t have control over how sources of these nutrients change as they undergo the process of heating foods and other cooking preparations. With children being so picky, it is not surprising that they are susceptible to malnutrition. On the other hand, supplementation has been supported by decades-old research to meet the nutrient needs of individuals, including children. If you decide on giving your child multiple vitamin and mineral supplement, do check the label to make sure it says it contains 100 per cent of the recommended dietary intake of all nutrients.
Affects Growth and Development
A number of nutritional supplements available today have been proven to be of utmost help to the reversal of many medical signs and alleviation of diseases. Some of them have been associated with having a positive effect on the chemical reactions within the human body, and multiple vitamins and mineral supplements belong to this category. There is an ever-growing body of literature devoted to the interactions of exogenous compounds within the human body. Research on multivitamins in particular is among the most advanced in pharmacology, with emphasis on how the body effectively digests and absorbs them. Since the availability of vitamins and minerals is important to the physical and mental development of children, modern-day technology focuses on their absorption.
Strengthens Immune Defenses
There is scientific consensus that micronutrients, even trace minerals, boost our immune system. In fact, in individuals who have compromised immune responses, high quantities of vitamins and minerals slow down the progression of opportunistic diseases, as is the case with children with HIV. Children who have strong immune system are known to have levels of micronutrients adequate to ward off common illnesses. The opposite is also true. Multiple vitamin and mineral supplements have long been used to combat the dire effects of malnutrition as deficiencies are almost always reversed with supplementation. That being said, prevention is always better than cure.
Ensure you are getting the daily vitamins and minerals you need to maintain good health with a quality multiple vitamin and mineral.
What is stopping you from taking a multiple today?
Papaya- May Be A Fountain of Youth
May 31, 2007 02:09 PM
Papaya- May Be A Fountain of Youth
Seventy years ago, when the Social Security Administration was developed during the Great Depression, age 62 was recognized as average life expectancy. These days, getting older is a whole different ball game. Not only are people living well into their 80s and 90s, they’re living better, too. People well into retirement are mountain biking, kayaking, jogging and hiking, as well as gardening, golfing and attending concerts – sometimes for their first time. Everybody, it seems, is on the go, from ages of 22 to 92.
Of course, you don’t have to wait until retirement to start planning for a longer more vibrant life. The best way to ensure happier and longer years ahead is to start young.
Nobody wants to spend retirement in the doctor’s waiting room or have their golden years intruded upon with illnesses or infirmities. And, most importantly, we don’t want to feel 80 years old even though our driver’s license says we are.
These desires and demands are not just wishful thinking. Huge advances in the understanding of how men and women age are being made almost daily. These findings are helping to improve our chances of living long, healthy lives. And, some of the most impressive findings have shown that using nutritional supplements can help – in particular, a specially formulated papaya preparation is able to fight two of the primary reasons we get old – oxidative stress and immune system decline.
This issue of Ask the Doctor is going to share the anti-aging secrets hidden in the papaya and how this tropical fruit may hold the key to a long, vibrant life.
Q. Why papaya? What does papaya have that other fruits and vegetables don’t?
A. Not many American moms put a papaya in their kids’ lunch boxes and papaya pie has yet to gain a following. But this tangy tasting fruit is now appearing fairly frequently in the produce departments of most grocery stores and its popularity seems to steadily increase each year.
The papaya’s bright orange flesh is fairly fibrous and very slippery – slicing a peeled papaya is a little like slicing a bar of wet soap. The core is filled with little black seeds that look a lot like caviar. And while eating a papaya will give you a day’s worth of vitamins A and C as well as potassium taking Fermented Papaya Preparation (or FPP) might just give you an additional 30 years of healthy vibrant life.
Q. What exactly is Fermented Papaya Preparation (FPP)?
A. It’s a specialized nutritional supplement. Backed by more than 30 studies to date, FPP has been used in
Q. How was FPP developed?
A. Japanese scientists noticed that individuals with higher amounts of papaya in their diets experienced certain health benefits.
Researchers who study aging decided to look at the papaya’s chemistry to see if it might have properties that could contribute to longevity. Several plant chemicals in the papaya showed promise. And when they combined papaya with specific yeasts and traditional Japanese fermentation techniques, FPP was born. This unique substance was then subjected to scientific studies to see its health impact; they determined that FPP is a superior antioxidant, a powerful immune-booster, and one of
Q. How does FPP help people live longer and healthier?
A. While getting older is an indisputable fact of life, aging, per se, is not. We can’t do much about our annual birthdays and we really shouldn’t even if we could. Every age is a cause for celebration and every life experience, both the difficult and the sublime, should be treasured.
However, we don’t have to accept the consequences of aging that can make a mockery of the “Golden Years” - heart disease, Alzheimer’s disease, Parkinson’s disease, osteoporosis, arthritis, and cancer. Our parents and grandparents and the generations that preceded them might have had little say in how they aged. But we can. We can slow down the harmful effects of aging and FPP can help by reducing oxidative stress and immune system decline.
Additionally, fighting oxidative stress helps people retain their youthful appearance longer. Oxidative damage is the number one factor in facial aging.
Q. What exactly does oxidative stress mean and what does it have to do with aging?
A. One theory of aging is that harmful molecules called free radicals wreak havoc in our cells. Many of our body’s normal metabolic processes produce free radicals. For example, free radicals are a normal by-product in the production of ATP (the energy molecule) from glucose. Certain types of white blood cells destroy invading microbes by the production of free radicals. Free radicals are also formed by the many normal enzymatic actions that take place every minute every day.
However, outside sources can also cause free radical formation, as well. If we are exposed to pollutants in the environment, chemicals, additives and preservatives in the food we eat, or even direct sunlight, excess production of free radicals can occur, causing profound damage. This free radical frenzy is called oxidative stress, and is linked to almost every disease of aging including arthritis, heart disease, cataracts, Alzheimer’s disease, Parkinson’s disease, and cancer. In fact, the reason why these are called diseases of aging is because the longer we are alive, the longer we are subjected to these free radical assaults.
Q. How does FPP affect the decline of our immune systems as we age?
A. Our immune systems consist of specialized tissues, organs, and cells, including several different kinds of white blood cells. Each type of white blood cell works in specific ways to keep us healthy and free of disease. They not only stand guard – on the alert for invaders – they can fight and eradicate microbes, too.
However, as we age, our white blood cells become less efficient in keeping viruses and bacteria from infecting us. They often mistake invaders for good guys, like nutrients. As they age, white blood cells may recognize foreign invaders, but be too tired to fight and let them in. This age-associated immune decline also results in single cancer cells being able to “take hold” and grow into tumors. By the time the white blood cells realize their mistake, the cancer is a widespread disease.
That’s why older members of society have more urinary tract infections, more pneumonia, more cases of bacterial meningitis, tuberculosis, herpes zoster, and much more cancer than younger adults do. Moreover, mortality rates for these diseases are often 2-3 times higher among adults than younger people with the same disease.
FPP steps in and takes charge. One kind of white blood cells, the macrophage “eats” and digests bacteria, viral particles, and free radical fragments. Research has shown that FPP helps macrophages work faster and ingest more disease-causing microbes. Scientists have also discovered that FPP increases the production of a chemical protein called interleukin that’s secreted by macrophages. Interleukin plays an important part in wound healing and keeping minor infections from becoming major infections.
Another important immune system cell is the natural killer (NK) cell, a white blood cell that is continually on the prowl for cancer cells. As the immune system ages, NK cells have trouble “seeing” cancer cells. Researchers have discovered that FPP boosts the activity of NK cells. Increased NK cell activity can result in the increased killing of cancer cells as well as cells infected by viruses.
Q. How does FPP help protect us from free radical damage?
A. FPP contains unique and powerful antioxidants. Antioxidants are molecules that neutralize free radical damage. Antioxidants do this by donating an extra electron to the free radical without becoming frenzied or worked up into a free radical themselves. Although the antioxidant has donated an electron, it has a more stable “personality” and is less reactive. This action stops the domino effect and ongoing free-radical damage.
If you consider your body a temple, think of free radicals as stealing bricks from your temple’s foundation. FPP acts not only as policeman, but as a builder as well. It doesn’t just stop the theft of bricks; it helps create new ones, keeping the foundation strong and young.
FPP does this by affecting super oxide dimutase (SOD) and glutathione peroxidase (GPX), the very genetic pathways that eliminate free radicals from the system. FPP is more than an antioxidant – it doesn’t turn into a pro-oxidant if you happen to take a large dose the way standard antioxidants can. Consider it an “antioxidant plus.”
Since aging is largely determined by how well our bodies can fight oxidative damage, using FPP can slow down the clock as it bolsters natural abilities with its own potent neutralizing activities.
Q. What else does science say about FPP?
A. As the subject of over 30 clinical studies, FPP has been shown to inhibit dangerous hydroxyl free radicals. In addition, it is also being considered for its immuno-protective effects.
Researchers and medical professionals have been studying FPP for years, tracking its effect on the immune system and aging. In fact, no less a personage then Dr. Luc Montagnier, co-discover of HIV 1 & 2 virus, has been conducting research on this natural immune booster.
Dr. Montagnier recommends using FPP as part of a tri-therapy (including antibiotics) that reduces the proliferation of the virus and stimulates the immune system. Since FPP has antioxidant and immuno-stimulative properties, it seems like an obvious choice for a combined approach to combating AIDS. Because of the higher free radical production in stage II of HIV infection, Montagnier believes that reducing this oxidative stress at the earliest stage of HIV infection may be a key factor.
In HIV-infected patients, the glutathione system is depressed even at the early stages. As part of a combination treatment, FPP increased the numbers of CF4 lymphocytes helped with weight gain and increased hemoglobin levels.
One scientific study showed the ability of FPP to inhibit dangerous hydroxyl and hydroxyl-like free radicals, while enhancing the production of protective super oxide. Other research by Dr. Lester Packer, a professor of Molecular Pharmacology and Toxicology at the
And, in one randomized, double blind, placebo-controlled clinical trial, patients with cirrhosis of the liver were given FPP or a placebo. The results showed that 81.2% of the patients survived in the FPP group compared to 38.5% of participants in the placebo group.
These studies and many others like it, show that FPP can neutralize the effects of oxidative stress on disease states as well as slowing the normal aging process.
Q. So if we can prevent oxidative damage to our cells AND prevent decline in our immune systems, how much longer can we expect to live?
A. Most theories of aging and almost all researchers who study aging claim there IS a limit to how long the human body can remain viable. However, the oldest age achieved so far was 128 by a woman named Ma Pampo who lived in the
Right now, Japanese women have the longest life span of any country in the world, with an average life expectancy of 85.93 years. Japanese men live an average 78.87 years.
Q. Is FPP safe?
A. Yes, it is. Many health-conscious people in
Q. What is the recommended dosage level of FPP?
A. Dosages of FPP vary depending on individual needs and usage. For basic anti-aging support, 3 grams per day is fine. For additional support, up to 9 grams per day is recommended. To add a boost to your immune system when you need it, start out with 6-9 grams a day for the first 2-3 days (at the beginning of a cold, for example) and then move back down to 3 grams per day.
For individuals looking for optimum immune support, Dr. Montagnier advises morning and evening doses, preferably on an empty stomach.
Truth in Labeling
June 14, 2005 10:44 AM
Truth in Labeling by Diane Stanton Energy Times, June 14, 2004
Do you or don't you read food labels when you shop? If you don't, you're missing out on a prime source of information about your meals. If you want control of your health, focus on package labels and pick your foods carefully.
The large print on food labels focus on what are called macronutrients: carbohydrates, fat and protein. Some of the smaller categories convey information about vitamins, fiber, and minerals, as well as the totals of fat and saturated fat contained in food. So, you have no excuse for claiming ignorance about your diet: the truth is in the labels.
Food labels can be confusing to the uninitiated. Go into a big food store and you can be faced with what seems to be a forest of food information: more than 15,000 labels. Add to that fact that every year more than 30,000 new food products can be introduced to the marketplace, and what you're faced with is a jungle of food labels.
That overwhelming wealth of food label information doesn't mean you should throw up your hands in dismay and give up reading and deciphering labels. You should arm yourself against that sea of labels with knowledge and, by understanding them, end your confusion and build your health.
A hundred years or so ago, food labels were only required to list the name of the food contained inside the package. The contents, quality and processes used to make the food were often a mystery. Little or no disclosure to consumers was made about how their food was created.
By the early 1920s, the federal government, via the Food and Drug Administration (FDA), began requiring food companies to list the net weight of food on labels as well as the names and addresses of food processors and distributors. Finally, by the 1970s, listing basic nutritional information was mandated in a uniform way so that shoppers could have some basis for comparing foods. Then, in 1990, the Nutrition Labeling and Education Act made major alterations to the kinds of labels that had to be included on food packages.
The FDA and the US Department of Agriculture (USDA) required significant changes to food labels that were supposed to make it easier for consumers to eat healthier diets. The labels requirements of 1994 included five major changes:
Consumer questions regarding food labels have led researchers to look into ways to help shoppers comprehend what food labels tell them. These studies are designed to help consumers match up their nutrition requirements with the foods they buy.
For instance, at the University of Illinois at Urbana-Champaign, scientists have devised a label tool called See It, Do It, Teach It to help people improve their diets through comprehension of food label information. " One of the goals of the project was to help...teenaged girls and menopausal women understand how they can get the daily requirement for calcium into their diet in order to help prevent osteoporosis," says Karen Chapman-Novakofski, PhD, associate professor and nutritionist in the school's College of Agricultural, Consumer and Environmental Sciences.
According to the See It, Do It, Teach It program, you should think of food labels as consisting of two sections:
" Much more attention has been paid to what people should limit rather than the nutrients needed. The average consumer doesn't know, for instance, how much vitamin A 10% of the Daily Value is, or how much calcium 25% of the Daily Value is," Dr. Chapman-Novakofski says.
Upping Calcium Intake
In their eight-week study of people's calcium consumption (Journal of Nutrition Education and Behavior 4/04), the University of Illinois research team found that people didn't know how much calcium was in the food they ate.
After the initial part of the study, in which participants were shown how to look for calcium on labels, "the post-test revealed that the participants significantly increased their calcium intake to 821 mg per day, up from 372 mg per day," notes Dr. Chapman-Novakofski.
" That's a lot closer to the daily requirements of 1,200 mg per day for men and women over 50, 1,000 mg for men and women aged 19 through 50 and 1,300 mg per day for [youths aged] 9 to  years," she adds.
Parts of the Label
The first item at the top of a nutrition food label tells you the portion size that the label measures. An important point to remember: these sizes are determined individually by each manufacturer. Consequently, all of the other values on the label are measured per portion.
So, if you are comparing foods made by two different companies that employ very different portion sizes in their nutritional calculations, your label comparisons may be complicated.
Another fact to be aware of: the listed portion size may be an odd division of the food within the container and not reflect a common-sense division. For instance, some food packages are labeled as containing 2.5 portions.
And, to make things even more interesting, small boxes of candy that you might think contain barely enough for one helping may be labeled by the manufacturer as having two or more portions. As a result, if you eat the whole box, you often have to at least double the number of indicated calories, etc. to figure out the nutrients and calories you are consuming.
The section of the label that notes calories, calories from fat and percent daily values is listed under the portion size. Here you are told how many calories you consume when you devour one portion and how many of those calories are derived from fat.
This label focus on fat originated when consumers and dietitians were very concerned about Americans' fat consumption and hadn't yet switched their focus to carbohydrate consumption as a prevalent dietary health priority.
Also included on the label: the daily value percentages aimed at showing you how much out of a total day's intake of various nutrients a portion bestows upon you.
These percentage numbers are based on a theoretical analysis of a diet that contains 2,000 or 2,500 calories a day. (A notation at the bottom of the label tells you whether the calculation is based on 2,000 or 2,500.)
If you've been eating a low-carb diet (or are planning this type of diet), the section of the label that lists carbohydrates may be especially useful. Under this heading, the label lists the totals for fiber and sugar.
No matter what diet you are on, dietary fiber is desirable, since it represents indigestible carbohydrates that both pass through you without conveying any calories and keep beneficial bacteria in your digestive tract healthy.
Most people want to limit their sugar totals, however, since this nutrient may raise your risk of being overweight and, when you eat a lot of it, may contribute to immune problems.
Interestingly enough, when food chemists compute what is in food, they perform lab tests known as assays to distinguish its ingredients. (The manner in which these tests are performed are very strictly regulated by the FDA.)
In fact, just about every nutrient listed on a food label is determined by laboratory test except for the carbohydrate content: the amount of water, fat, crude protein and ash are determined this way. But the total carbs are computed by simply subtracting the total of the other ingredients from the total amount of food, a kind of process of elimination.
So while fat and protein are measured with precise lab tests, carbohydrate totals are figured by the leftovers. (The water and ash, by the way, are not usually listed on food labels.)
Within the general carbohydrate group, are several categories of carbohydrates that produce very different effects in your body. These categories can be divided into sugar, sugar alcohols, dietary fiber and a collection of various chemicals that include organic acids, flavonoids, gums, lignans and others.
According to the FDA, the food label only has to list the total carbs, sugar and dietary fiber. But some food companies now list things like sugar alcohols.
Blood Sugar Effects
Not all of these types of carbohydrates behave the same way in your body. For example, when your body digests table sugar, it turns immediately into blood sugar. So sugar and most other carbohydrate is what we call "digestible carbohydrate." Other carbs, such as sugar alcohol or glycerine, can be digested but do not turn to blood sugar. Still others, such as dietary fiber, are indigestible and pass through your body without impacting your blood sugar level.
To date, the FDA has not focused on these important biochemical differences and treats all carbohydrates alike. This means that when you look at a food label, you do not see a number for the carbs that impact your blood sugar level. To do so, simply subtract the number of grams of fiber from the total number of carbohydrate grams.
Recently, the phrases "low carb," "net carb" and "impact carbs" have begun to appear on food labels. These are not defined by the FDA; they were put on labels by by companies to help consumers pick out foods that are acceptable on low-carb diets. To arrive at the total of net carbs, food companies subtract the total amount of fiber and sugar alcohol from the total carbohydrates.
Since the body cannot digest fiber, this nutrient (which is still important for good health) is not calculated into the total amount of carbohydrates. As for sugar alcohols, while-technically speaking-these are carbs and they do have calories, they have little effect on blood sugar and usually are not counted in total carbohydrates.
According to the American Dietetic Association, people with diabetes who are managing their blood sugars using the carbohydrate counting method should "count half of the grams of sugar alcohol as carbohydrates since half of the sugar alcohol on average is digested.
" Fiber is not digested, however. If the serving of food has more then 5 grams of fiber one should subtract the grams of fiber from the total carbohydrate grams." As you can see, when it comes to food, as in most things, knowledge is power. If you want power over your health, you need power over the food you eat. The road to that power is by reading food labels. What's in the food you're eating every day may surprise you.
Vitali-Tea - Tea fits a healthy lifestyle to a T...
June 13, 2005 09:45 AM
Vitali-Tea by Leah Brinks Energy Times, October 9, 2003
If the research is even only half right, tea fits a healthy lifestyle to a T. Whenever scientists look at a teapot's contents, they find striking health benefits: Heart protection. Reduced cancer risk. Better skin.
All of these are apparently in the bag when you choose to drink tea. Tea green, tea black: Which to choose? Actually, both types come from the same plant, Camellia sinensis. Green tea is steamed and dried; black tea is fermented, which allows its darker color to develop. Some lesser-known types include white tea, which is actually green tea that undergoes the most minimal of handling. (Another rare white tea, white cantaloupe, is rich in antioxidants.) Oolong is a tea that falls between green and black in processing and flavor.
One increasingly popular tea color, red, is not tea at all, but an herbal brew called rooibos (technically, herbal teas are known as tisanes). This South African plant yields a citrus-flavored beverage high in vitamin C. Other herbs known for yielding flavorful infusions include chamomile, used to promote sound sleep; peppermint, a digestion easer; and rose hips, which, like rooibos, combines healthy vitamin C levels with a delightfully zesty taste.
The evidence for tea's health benefits has practically boiled over. For instance, researchers at the University of Rochester have found that green tea substances inhibit the action of a molecule irritated by tobacco smoke, a toxin central to tobacco's cancer-causing danger. This action, say the scientists, may be the reasons that smokers who drink tea suffer less cancer (Chem Res Tox 7/21/03).
The Rochester researchers found that tea helps protect a cellular molecule called the aryl hydrocarbon (AH) receptor. Ordinarily, AH is frequently disturbed by toxic substances that cause cancer and other illnesses. Tobacco smoke (as well as the pollutant dioxin) interacts with AH to initiate cancer and other problems.
But at least two chemicals in green tea-epigallocatechingallate (EGCG) and epigallocatechin (EGC)-interfere with AH's harmful activity. These substances, flavonoids similar to healthful chemicals found in grapes, wine and cruciferous vegetables like broccoli, have been shown to lower cancer risk.
"It's likely that the compounds in green tea act through many different pathways," says Thomas Gasiewicz, professor and chair of Environmental Medicine and director of Rochester's Environmental Health Science Center.
In the Rochester study, Dr. Gasiewicz and his colleagues found that EGCG and EGC close down the AH receptor in cancerous animal cells and most likely produce the same benefit in human cells.
Still to be made clear is how tea is metabolized when the body digests tea, but the Rochester scientists are still peering through their microscopes and teapots to find out.
Scientists at the Linus Pauling Institute at Oregon State University have found that drinking green or white tea can significantly lower your risk of colon cancer as well the prescription drug sulindac, which has been shown effective for people at high tumor risk (Carcinogenesis 3/03).
"Tea is one of the most widely consumed beverages in the world, and recent upswings in the sales of green tea in the United States can be attributed to reports of potential health benefits against cancer and other chronic diseases," says Gayle Orner, an OSU research associate. "Teas exert significant protective effects in experimental animal models of skin, lung, esophageal, gastric, hepatic, small intestinal, pancreatic, colon, bladder and mammary cancer."
While many people today take aspirin and similar drugs that have been shown to lower cancer risk, this study shows that drinking tea and taking low doses of these drugs, called NSAIDs, can reduce the risk even further. (High doses of NSAIDs, while protective against colon cancer, can cause internal bleeding.)
"These are pretty exciting results," Orner says. "What's especially significant is that as far as we can tell consumption of tea has none of the side effects of NSAIDs, which can be severe, including bleeding, ulcers and even death."
In this research on animals, use of tea dropped the risk of cancer by about two-thirds. According to the lab results, drinking about three large cups of tea a day should provide significant cancer protection. Based on research in Japan that looked at how green tea lowers the risk of stomach cancer, the Linus Pauling scientists urge plenty of tea drinking: "The more the better."
Studies show that nations of tea drinkers have less trouble with their hearts than residents of places where tea is hardly ever brewed. And now research is starting to zero in on the substances in tea that benefit heart health.
A study of 240 Chinese men and women who have high cholesterol has found that chemicals in tea can significantly drop harmful cholesterol (Arch Int Med 6/23/03).
"Personally, I was very surprised," says David J. Maron, MD, professor at the Vanderbilt University Medical Center, lead author of the study. "I expected, if anything, a very slight cholesterol-lowering effect. But what we saw was a 16% reduction in low density lipoprotein (LDL) cholesterol."
LDL cholesterol is known as "bad" cholesterol because it can increase your risk of heart disease.
The researchers in this study gave people extracts of green and black tea enhanced with theaflavin, an antioxidant also found in green tea.
In the future, if past results are any indication, tea's rich supply of beneficial chemicals will continue to pleasantly surprise researchers with even more benefits.
May 12, 2005 09:33 AM
Keeping the Intestines Healthy"Friendly Bacteria" Therapy Breakthrough
by Richard Conant, L.Ac., C.N.
Ninety percent of the cells found in the human body are not of human origin.
No, this does not mean we are all products of some sinister alien experiment.
The human body is made up of about 10 trillion cells. This huge number is dwarfed by the bacteria we all carry around in our intestinal tracts. The lower bowel is a campground for roughly 100 trillion bacteria, single-celled plant organisms that can be seen only through a microscope.
When we enjoy good intestinal health, the bulk of these bacteria are beneficial. Known as "friendly flora," these tiny guests help digest our food by breaking down undigested proteins, fats and carbohydrates. The friendliest of the friendly bacteria are the "lactobacilli," so named because they produce lactic acid in the bowel, by fermenting carbohydrates. This lactic acid production is profoundly important for keep the intestines healthy. And good intestinal health is the foundation of overall health.
How do we maintain a thriving population of lactic acid-producing bacteria in the gut? First introduced into the human body through mother's milk, lactobacilli are somewhat fragile. Stress, poor diets, and antibiotics can kill them off. They should be replanted fairly regularly throughout life. One way to do this is through consumption of cultured milk products such as sour milk, kefir and yogurt, which contain live lactobacilli. They can also be consumed in dietary supplements, but this may or may not be a reliable route. Bacterial products do not keep very well on the shelf, they require refrigeration, and are largely destroyed on the trip from the mouth to the gut by our own digestive juices.
Introducing Lactobacillus sporogenes- a revolutionary new friendly bacteria supplement.
This article will focus on one particular species of lactobacilli, a relatively unknown member of the family called Lactobacillus sporogenes. This lactic-acid producing bacteria may prove to be one of the most practical forms for use in supplements, thanks to a unique property not shared by the more well-known friendly flora such as acidophillus. L. Sporogenes is a spore-forming bacteria. Safely enclosed within a spore coat that protects it from the environment, L. sporogenes is resistant to heat, oxygen and digestive acids. Once L. sporogenes reaches the intestines, its spore coat dissolves, freeing the bacteria to multiply and churn out the beneficial lactic acid. (The spore coat, made up of a calcium-protein-carbohydrate complex, is harmless).1
The difficulty of keeping friendly bacteria supplements alive is an ongoing problem for manufacturers of these products. Studies have analyzed various commerical products claiming to contain acidophilus and found they often contain few live bacteria.2,3 L. Sporogenes is naturally microencapsulated; this insulates it from the gauntlet through which friendly bacteria in dietary supplements must pass.1 Autointoxication-Poisoning by Bacterial Toxins The intestinal tract may also play host to pathogenic, or disease-causing bacteria. These "unfriendly flora" cause putrefaction and release injurious toxins into the lower bowel. This healthy picture is all too common, and has long been concern of wholistic health practitioners.
The concept of "autointoxication," poisoning of the body by intestinal toxins, was popular among doctors in the late 19th and early 20th centuries. An editorial on the dangers of autointoxication which appeared in the June 3, 1893 issue of the Journal of the American Medical Association (JAMA) declared that "most likely a large majority of chronic diseases take their origin from this cause."4 The famous Russian physician Eli Metchnikoff pioneered the use of lactobacteria for preventing autointoxication and restoring bowel health. His landmark work 'Prolongation of Life' sparked interest in lactobacilli as a food supplement.5,6
Naturopathy, widely practiced during the early twentieth century, has always stressed the fundamental importance of bowel cleansing. With the advent of so-called "scientific medicine," naturopathy slipped into decline, and the concept of autointoxication was discredited. Over the last thirty years or so, this has changed. Naturopathic medicine has rebounded, and the importance of bowel health is once again recognized. A paper published in the New England Journal of Medicine in 1964, while opining that autointoxication "was exploited by quacks and faddists" in the early 1900's concedes that "the concept of autointoxication must now receive serious consideration."7
Leaders in the rebirth of natural medicine such as Dr. Bernard Jensen have helped educate the public about the importance of keeping the bowels healthy through regular use of lactobacilli. Jensen is well-known for his extensive studies of regions such as the Hunza Valley in Pakistan where people commonly live well over one hundred years. Jensen and others have noted that the consumption of fermented dairy products containing lactobacilli is a common dietary practice in these areas. Their observations have contributed to the popularity of friendly bacteria supplements. At the same time, clinical research has provided ample evidence of the beneficial effects of lactobacteria supplementation.5,9<.sup>
Eubiosis-Keeping a Healthy Bacteria Population in the Intestinal Tract
In his book 'Tissue Cleansing Through Bowel Management, which contains a wealth of valuable wisdom on intestinal health, Dr. Jensen writes, "Where health and vitality are found, we invariably find the friendly and beneficial microbes ... To a large extent the flora in the bowel determines the state of health in an individual."8 In a healthy bowel the friendly flora make up the bulk of the bacteria population. The unfriendly, disease-causing organisms are in the minority. The good bacteria keep them firmly under control. This healthy microbial balance in the gut is called "eubiosis."
Life in our modern industrial society is hardly favorable to eubiosis. Residents of the Hunza Valley lead unhurried lives in a pristine, pollution-free environment. They grow their own food in fertile, nutrient-rich soil, work close to the landÐand consume lactic-acid producing bacteria on a daily basis. For the rest of us who cannot hope to enjoy this enviable lifestyle, eubiosis is something we should never take for granted. This means taking proactive steps to plant the seeds of health in our intestinal garden, by using a viable friendly bacteria supplement.
Supplements which help to populate the intestinal tract with friendly bacteria are known as "probiotics." The term "probiotic" literally means "for life.' (In contrast, "antibiotic" means "against life.") Probiotics restore the natural state of "eubiosis" that is so very important for health and longevity.
L. Sporogenes-an ideal probiotic
Not every species of lactobacilli qualifies as an effective probiotic. As noted above, many do not survive processing, storage and passage through the digestive system very well. The following attributes make L. Sporogenes an ideal probiotic supplement:1,10,11
1) Naturally microencapsulatedÐstable at room temperature and can be stored unrefrigerated for long periods without loss of viable organisms.
2) Tolerates heat, stomach acid and bile, allowing it to successfully travel into the lower bowel.
3) Non-pathogenic, has only beneficial effects on its host. Has similar characteristics as acidophilus: prefers a mild acid environment; produces lactic acid, digestive enzymes, etc.
4) Readily multiplies in the human gut. In the stomach, the spore coat absorbs moisture and begins to swell. Upon reaching the small intestine, the bacteria cells germinate and begin to multiply, doubling in number every 30 minutes.
5) Produces enzymes which help digest protein, fats and carbohydrates. These enzymes include lactose, the enzyme that digests milk sugar.12
6) Creates a favorable environment (mildly acidic) in the gut for other friendly bacteria to thrive. Prevents overgrowth of pathogenic organisms.
7) Produces lactic acid in the form of L- lactic acid only.
The last point is especially important. Lactic acid occurs in the form of three isomers (substances with identical molecular structures that have different shapes): L-lactic acid, D-lactic acid and DL-lactic acid. The D form is metabolized slowly, and can produce acidosis in the system. (Infants have a particularly difficult time metabolizing D-lactic acid.)11,13 DL-Lactic acid, the kind acidophilus makes, may be converted to either D or L.
The L form is the one we want. L. sporogenes is a "homofermenter," it makes L-lactic acid exclusively. Lactic acid keeps the gut mildly acidic. This acidity is essential for the gut to be a hospitable home for friendly bacteria, and stops the growth of the unwelcome disease-causing bacteria.
L. sporogenes has only one drawback. It is a transient visitor that does not permanently colonize in the digestive tract. A study on the retention of L. sporogenes found no bacteria in the feces six days after consumption was discontinued.14
L. Sporogenes-Results from Clinical Studies
L. Sporogenes is used extensively in Japan and approved by the Japanese equivalent of the FDA. L. sporogenes has been given to hospital patients suffering from intestinal complaints such as gas and bloating due to abnormal fermentation, constipation, diarrhea and indigestion. (These problems often occur after surgery or chemotherapy.) A total of 16 clinical reports are on record in Japanese hospitals, documenting 293 case of digestive complaints treated with L. sporogenes.15 The overall improvement rate is an impressive 86 percent. Results are typically seen within four to five days. L. sporogenes has also been used with success to clear up diarrhea in newborns.16 Like other lactobacilli, L. sporogenes lowers blood cholesterol. (Lactobacilli break down cholesterol and bile salts in the intestinal tract.) Researchers at a hospital in New Delhi, India gave L. sporogenes tablets to 20 patients with high cholesterol for twelve weeks.17 Total cholesterol levels were substantially reduced, along with LDL cholesterol, and the beneficial HDL rose slightly.
The popularity of L. sporogenes in other countries as an ideal friendly bacteria supplement will no doubt be soon matched in the U.S. This microscopic helper for intestinal health is now sold in probiotic products under the name "Lactospore®."
1. Gandhi, A.B., Nagarathnam, T. Probiotics in veterinary use. Poultry Guide 1990;27(3):43-47.
2. Brennan, M., Wanismail, B., Ray, B. Prevalence of viable Lactobacillus acidophilus in dried commercial products. Journal of Food Protection 1983;46(10):887-92.
3. Gilliland, S.E., Speck, M.L. Enumeration and identity of lactobacilli in dietary products. Journal of Food Protection 1977;40(11):760-62.
4. Dalton, R.H. The limit of human Life, and how to live long. JAMA 1893;20:599-600.
5. Shahani, K.M., Ayebo, A.D. Role of dietary lactobacilli in gastrointestinal microecology. American Journal of Clinical Nutrition 1980;33:2448-57.
6. Metchnikoff, E.. Prolongation of Life. New York: G.P. Putnam Sons;1908.
7. Donaldson, R.M. Normal Bacterial populations of the intestine and their relation to intestinal function. New Eng. J. Med. 1964;270(18):938-45.
8. Jensen, B. Tissue Cleansing Through Bowel Management. Escondido, CA: publ. by Bernard Jensen, D.C.;1980.
9. Schauss, A.G. Lactobacillus acidophilus: method of action, clinical application, and toxicity data. Journal of Advancement in Medicine 1990;3(3):163-78.
10. 'General InformationÐLactospore®' 1996; Sabinsa Corporation: Piscataway, NJ.
11. Gandhi, A.B. Lactobacillus sporogenes, An Advancement in Lactobacillus Therapy. The Eastern Pharmacist August 1998:41-44.
12. Kim, Y.M., Lee, J.C., Choi, Y.J., Yang, H.C. Studies on the production of beta galactosidase by lactobacillus sporogenes. Properties and application of beta galactosidase. Korean J. Appl. Microbiol. Bioeng. 1985;13(4):355-60.
13. Oh, MS. D-Lactic acidosis in a man with short bowel syndrome. New Eng J Med 1979;31(5):249-52.
14. Hashimo, K. et. al. New Drugs and Clinics 1964;13(9):53-66.
15. 'Abstracts of papers on the clinical studies of Lacbon' Unpublished data.
16. Dhongade, R.K., Anjaneyule, R. Lactobacillus sporogenes (Sporlac) in neonatal diarrhea. Unpublished data.
17. Mohan, J.C., Arora, R., Khaliullah, M. Preliminary observations on effect of Lactobacillus sporogenes on serum lipid levels in hypercholesterolemic patients. Indian J. Med. Res. 1990;92(B):431-32.
VitaNet ® Staff