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antioxidants

  • According to new research published in Food and Function, researchers from the University of Scranton in Scranton, Pa., compared the amount of powerful antioxidants called polyphenols in nine types of roasted and raw nuts and two types of peanut butter in an attempt to “crack” the antioxidant code.

    The results?

  • Antioxidants, Our Natural Protectants: Metabolic Regulators, Antitoxins and Anti-inflammatories

    Antioxidants protect us. They are the sub-stances that naturally regulate the fires within our bodies.

    The fires are sparked by metabolic errors in our cells—errors that are unavoidable as our cells make and use energy for the business of life. The fires can be managed when we are young and very healthy but become harder to control as we get older. Aging is not so much bad genes as it is a slow, inexorable, cumulative consequence of tissue damage from internal fires, sparked by these unavoidable errors of metabolism.

    The sparks of metabolism come from living with oxygen. Our life forms breathe in oxygen and use it to do controlled “burns” that extract energy from our foods. Oxygen-based energy allows us to become more sophisticated than amoebas, but comes with a big price. Oxygen is so reactive that it draws single electrons to it, generating oxygen-free radicals within our cells. These “oxyrads” are our unavoidable “sparks of metabolism.” Antioxidants keep them from destroying our cells.

    Our tiny metabolic sparks are generated at a steady rate, the oxyrads having single electrons which cause them to attack biological molecules. Molecules with single electrons are aggressive oxidants: they steal single electrons to become paired up. Antioxidants block this process by donating their own electrons.

    The antioxidant defenses dare not fail. When they do, important bio-molecules lose single electrons, themselves become unstable, and initiate spreading chain reactions. A chain reaction that escapes control becomes inflammation, with cell and tissue death and progressive loss of functional capacity. Inflammatory events are our internal fires, opposed by antioxidant enzymes backed up by our dietary antioxidant intakes. Our antioxidant defenses give us power to head off degenerative disease and achieve long life.

    By quenching the metabolic sparks, antioxidants are also our natural antitoxins. But if the oxygen-free-radical toxins were the only problem, we'd likely all live 120 years or more. Think about cigarette smoke—100 trillion free radicals per puff. A total 4,000-plus synthetic chemicals in everyday use; even drugs we buy over the counter set small fires. Not to mention the illicit “recreational drugs.” Even emotional stress can overheat our metabolism. In this crazy world it's not good to leave home without your antioxidants.

    Infectious agents are consistently linked to inflammation. In 1990 I documented inflammatory depletion of antioxidants by HIV-1. Then there's Hepatitis C virus in the livers of four million Americans. The bacterium Helicobacter pylori accounts for the majority of inflammatory stomach and intestinal ulcers. About half of the chronically ill American veterans of the Gulf War have mycoplasmal infections. We also can't forget Chlamydia pneumoniae, the fungus Candida albicans and Giardia and amebic protozoal parasites.

    Our own host immune system may trigger inflammation from over-reaction to resistant pathogens. The immune cells produce huge quantities of free radicals when on the attack. When pathogens are not easily eliminated, the immune oxidant production can get out of control, resulting in local exhaustion of antioxidant defenses and another inflammatory focus.

    Almost every toxic substance steals electrons and therefore can deplete the body's antioxidants. Thus, the body's own efforts to process some substances can actually make them worse toxins. The P450 detoxification system, located mostly in the liver, combines oxygen with water-insoluble substances such as cholesterol, estrogens, pollutants, pharmaceuticals, even herbal constituents. They are made into free radicals, to be later combined with antioxidants and made water-soluble for clearance with the urine or bile. But things don't always go as planned.

    The P450 system wasn't designed to deal with the huge mass of toxins that enter the body. Let's talk about acetaminophen. This legal, over-the-counter drug (Tylenol®) is made highly reactive by the liver P450 enzymes. Then it burns away glutathione, the major liver antioxidant, and begins to kill liver cells. Liver failure can result. Organochlorine pollutants, indoor pesticides, mercury and other heavy metals (and let's not forget alcohol and cigarette smoke derivatives) all deplete glutathione and threaten all the tissues.

    I recently did a series of in-depth reviews of degenerative diseases. The major pattern I see with atherosclerosis, coronary heart disease, bowel diseases, liver diseases, Alzheimer's disease, multiple sclerosis, Parkinson's, cataract, arthritis, osteoporosis, macular degeneration, prostate diseases, many cancers—is inflammation. By combating inflammation, antioxidants are our essential natural defense against premature suffering and death.

    The body relies on foods to replenish its internal antioxidant stores. From our whole, unprocessed foods come the antioxidant vitamins A, C and E; the antioxidant essential minerals, selenium and zinc and copper and manganese; the semi-essential antioxidants coenzyme Q10 (COQ) and alpha lipoic acid (ALA); lutein, lycopene and other carotenoids; the polyphenolic flavonoids and various substances from traditional herbs. These circulate in our blood and contribute integratively to the blocking of free radicals. But a growing body of research indicates we aren't getting enough from our foods for optimal protection against disease.

    The healthy body tries to conserve the nutritional antioxidants through metabolic recycling. But still there is a “burn” on our reserves. Dr. Robert Cathcart, the foremost authority on vitamin C , speaks of a “hundred-gram cold,” an influenza so severe it can burn away 100 grams (not milligrams) of vitamin C in just a day or two. A flu attack can be held to just a few days instead of a few weeks by taking lots of C and other antioxidants.

    Integrative medical practitioners report that just about all their patients benefit from supplemental antioxidants. Vitamin E has been known for decades to be lifesaving against heart disease.Most of the health food community thinks of vitamin E as tocopherols. But tocotrienols are legitimate members of the vitamin E family and are excellent antioxidants. They are under clinical investigation for benefit against atherosclerotic blood vessel disease and experimentally for the slowing of cancer cell growth and proliferation.

    Stephen Sinatra, M.D., a cardiologist and leader in the practice of integrative medicine, has long been a booster for COQ. I can relate to this because I also see COQ's fantastic promise. As I read about health care costs soaring through the roof, I wonder why COQ is not being fortified in our foods to lower gum disease, to improve heart and blood vessel health, to boost immunity and fight cancer development, even (yes!) to lengthen everyone's productive lifespan.

    Coenzyme Q10 is unique as a potent antioxidant and indispensable energy catalyst (only ALA has a similar double role). Many of Dr. Sinatra's patients are very deficient in COQ. People taking statin drugs, beta-blockers or certain of the anti-depressants may have their internal COQ synthesis blocked. For them and probably for many of the sick and elderly, COQ is practically a vitamin. Any insufficiency of COQ can endanger the heart through impairing its energetic capacity.

    Dr. Sinatra has linked much of the heart disease he sees in women to COQ deficiency. More than 100 clinical studies document that COQ improves congestive heart failure, angina, high blood pressure. About 15 percent of Dr. Sinatra's patients do not improve satisfactorily on COQ alone; these he gives carnitine and then improvement usually occurs. He also sees in the clinical evidence a potential link between poor COQ status and cancers, especially in women.

    Selenium is an essential trace mineral, required through the diet though only in small quantities. Selenium has importance for human health that belies its plain mineral status. It is specific for the active sites of the antioxidant enzyme glutathione peroxidase (GP). GP is a central player in control over free radicals.

    In 1996 a major paper appeared in the prestigious (and conservative) New England Journal of Medicine, making an almost unbelievable claim. It described a double-blind, randomized, placebo-controlled trial in which more than 1,300 subjects were followed for up to 10 years. Dietary supplementation with selenium produced a 50 percent reduction in total cancer mortality. The incidence of cancer was reduced by one-third. Lung, colorectal and prostate cancer incidence were markedly reduced. The material used was SelenoExcell™, an organic selenium concentrate that resembles the selenium found in food.

    The carotenoids are, like vitamin E, fat-soluble antioxidants. One of them—lycopene—has been linked to exciting early results against prostate cancer. A small but controlled, clinical trial focused on male subjects undergoing surgery for prostate cancer. Half were offered a dietary supplement of LYC-O-MATO®, a standardized natural tomato extract with four times the typical lycopene content. PSA (Prostate Specific Antigen) levels and prostate tumor size were significantly reduced, compared with the control subjects.

    More recently, in a placebo-controlled, crossover trial, LYC-O-MATO® also showed good results in lowering high blood pressure. Its natural combination of lycopene with other plant nutrients may offer a unique synergy for the protection of our health against free radical and other toxic damage.

    Lutein is the only carotenoid found in high concentrations in the retina, a thin cell layer at the back of the eye which constantly takes a high dose of light radiation. Macular degeneration destroys the retina and afflicts one out of four Americans over age 65. Lutein is being researched for its capacity to protect the retina and the lens of the eye and it also has anticancer potential.

    Grape seed extracts are concentrates of flavonoid polymers. When the great scientist Albert Szent-Gyorgyi received the Nobel Prize for discovering vitamin C, he commented that he had expected to get it for discovering the flavonoids. The small polymers (oligomeric procyanidins) and polyphenols in grapes work synergistically with vitamin C to conserve the functions of the blood vessel linings and walls. Some of these flavonoids also have antiviral and possible anticancer actions.

    As scientists continue with their dedicated investigations of food constituents, the latest phytonutrient star is rosmarinic acid (RA). This substance is extracted from a naturally high-yielding strain of oregano and also occurs in thyme and rosemary. All three of these plants have been revered for their medicinal properties literally for centuries. RA appears to have anti-inflammatory and anti-allergic properties, while its high antioxidant potency has proved useful for stabilizing vegetable oils against frying. It has been prepared as a powder without solvents or other processing chemicals. Antibacterial, antifungal and antiviral effects are also being investigated.

    Antioxidants are, together with phospholipids, nutrients with profound nutraceutical potential. Whether supplementation with these nutrients will extend the maximum lifespan remains to be proven. Certainly the clinical and experimental studies suggest that functional deficiencies of these nutrients result in cell-level dysfunctions with the potential to spark inflammation that progresses to life-shortening degenerative disease.

    We need to keep the fires within us at a very low ebb lest they develop into the raging infernos of uncontrolled inflammation. Consumption of a variety of functional foods and supplements enriched with these nutrients will help keep that doctor away.

    Phospholipids, Functional Partners of Antioxidants

    by Parris M. Kidd, Ph.D.

    Within the cells, circulating lipoproteins, digestive fluids and elsewhere in the body, phospholipids co-occur and co-function with antioxidants. The phospholipids (pronounced fos-fo-lip-ids) self-assemble into membranes and other multidimensional structures, together with antioxidants to protect them against oxidative destruction. This partnership between nutrient classes profoundly influences the health of the whole being.

    The cell membranes are dynamic molecular assemblies that house life's plethora of biochemical processes. Our 100 trillion cells all rely on membranes to carry out their functions. Cell membrane organization is shown on the left of the illustration. Catalytic proteins are housed within a flexible bilayer (two molecular sheets), the phospholipid matrix. The matrix also houses antioxidants, including tocopherols and tocotrienols of the vitamin E family; lycopene, lutein and other carotenoids and ubiquinone (coenzyme Q10 or COQ). Also present is the antioxidant enzyme glutathione peroxidase, using selenium as its mineral co-factor.

    Phospholipids (PL) are the most biochemically-suited building blocks for membranes. The right side of the illustration shows the molecular plan of a common membrane PL such as PS (PhosphatidylSerine)or PC (PhosphatidylCholine).

    The fatty acid tails often are highly unsaturated and therefore susceptible to oxyradical or other oxidant attack. The more unsaturated the membrane, the more antioxidant protection is required. The PL head groups each bring special properties to the membrane. In PS the head group has serine, in PC it has choline. The “prophospholipid” GPC (GlyceroPhosphoCholine) has the choline head group but lacks fatty acid tails, and is absent from the membrane proper.

    PS is most concentrated in nerve cell membranes. Its head group associates with membrane proteins particularly crucial to nerve cell functions. These include:

    • The sodium-potassium AND calcium-magnesium transporters that use up to 70 percent of all the cell's energy;
    • Enzymes for signal transduction—protein kinases and adenylyl cyclases;
    • Receptors, sensors for chemical transmitters (acetylcholine, adrenaline, noradrenaline, serotonin, others), also for nerve growth factors;
    • Proteins of the mitochondrial membranes, central to energetics. Here PS also is a backup for other phospholipids.

    These membrane-level functions of PS translate to health for the whole being. Double-blind trials (20 of them) show PS a superior nutrient for memory support, for partial restoration of declining cognitive function, for coping with stress in the healthy young. Preliminary research suggests PS can improve attention, learning and behavior in children.

    The energy for life is generated in cell membranes. In the process oxygen radicals (“oxyrads”) are generated which are highly reactive. However good the antioxidant defenses are, some oxyrads escape control and attack membranes. Thus the brain, with its intense energy generation (up to 60 percent of the body's total), must continually renew its cell membranes. Antioxidants such as vitamins C and E, the minerals selenium, zinc and manganese, the energizers COQ and alpha-lipoic acid, the carotenoids lutein and lycopene, standardized polyphenolic flavonoids and other food borne antioxidants, all synergize with PS to help optimize brain functions.

    The liver is our workhorse organ; its cells contain a total eight football fields worth of membrane area, to perform 500 different functions. In its efforts to detoxify foreign substances it generates a further oxidative load on top of its usual oxyrad burden. Oxidants from foods, viruses, pollutants and drugs challenge the liver's antioxidant capacity. Though the healthy liver is well endowed with antioxidants, oxidant overload can kill cell membranes. Enter PC (PhosphatidylCholine), the most common phospholipid of membranes.

    Antioxidant Digest

     

    Dietary supplementation with PC has clinically important, sometimes lifesaving benefits for the liver. In eight double-blind clinical trials, PC protected the human liver against alcoholic inflammation, viral infection and toxic prescription rugs, markedly improving the speed and extent of patient recovery.

    The liver also carries a substantial reserve of GPC, which is readily converted into PC to make membrane. It is the most bioavailable source of choline to help the liver cells regenerate and perhaps for similar reasons is highly concentrated in mother's milk.

    Taken by mouth, GPC quickly clears the blood-brain barrier to reach the brain. Working through various mechanisms, it sharpens attention and immediate recall in young, healthy subjects. In the middle-aged it benefits information processing and general mental focus. In the elderly it improves declining cognitive functions linked to circulatory damage. GPC's support for nerve cell functions, including a protective role as osmotic buffer, make a convenient biochemical fit with the antioxidant defenses operative in the brain.

    Functional partnership between phospholipids and the antioxidants is not limited to membranes. The circulating lipoproteins produced in the liver (HDL, LDL and others) are made mostly from PL building blocks. Dietary PL facilitate normal, pro-homeostatic lipoprotein status, probably through their support of the liver.

    The LDL are the main vehicles for delivery of fat-soluble antioxidants—E, COQ, alpha-lipoic, carotenoids, others—to the tissues. In all of 12 double-blind trials, phospholipid mixtures lowered abnormally high total- and LDL- cholesterol without harming the HDL levels. In another double-blind trial, PL significantly improved blood flow to the brain and improved abnormal platelet aggregation. These marked circulatory benefits of the PL clearly complement antioxidants' benefits for the circulating lipoproteins and blood vessel walls.

    Phospholipids combine with antioxidants in facilitating digestion. The bile fluid is essential for fat digestion and absorption. Bile has a large content of PL, functioning with the antioxidant taurine as micellizing agents to fully disperse the fat molecules. Fatty acids of the omega-3 or omega-6 class make up many of the phospholipid “tails.” These are held in position by their parent PL molecules while enzymes break away prostaglandins (PG) and other messenger molecules. Membrane antioxidants help regulate the PG formed, to support a favorable balance.

    The natural co-functioning of phospholipids with antioxidants in our cells and tissues suggests combination supplements for synergistic benefits. In particular, a new technology (NutriVail™) employs custom phospholipids to make monomolecular dispersions of antioxidants, with the aim of substantially enhanced bio-availability and unique clinical benefit.

    Peer-reviewed publications available on request. Dr. Kidd is scientific consultant to Lipoid USA.

    Lutein For Eye Health

    Recent scientific studies showing a clear association between lutein intake and a decreased risk of age-related macular degeneration (AMD) and cataracts are capturing the attention of both consumers and their eye doctors. The need is growing clearer:

    • One out of four people aged 65 or older has early signs of AMD.
    • One out of two people aged 65 or older has a cataract or cloudiness in the eye's lens.
    • As the largest population group in the United States ages, many people are facing the likelihood of what some simply accept as part of aging, vision loss.

    A Food and Nutrition Board report found that lutein is the nutrient most strongly associated with decreased risk of AMD and cataracts.

    Lutein and Age-Related Macular Degeneration

    Prevent Blindness America estimates that 13 million people in this country have evidence of AMD, a condition that gradually destroys central vision. While the exact cause of this debilitating condition is still unknown, family history and age are known factors.

    Lutein is found in the macula's “yellow spot,” a tiny region at the center of the retina. This tiny yellow spot filters blue light for the color vision cells within the retina. The researchers found that lutein is deposited in the retina and macula, increasing its density and protecting the tissue from oxidation by filtering blue light and quenching free radicals.

    Experts say that by the time a person exhibits symptoms of AMD the disease has been developing for decades. Baby Boomers are showing concern about their aging eyesight and stocking up on supplement products formulated with lutein to reduce risk of age-related macular degeneration.

    Lutein and Cataracts

    While cataracts generally occur in people over the age of 65, they are occasionally found in younger people as well. A cataract is a clouding that develops in the normally clear lens of the eye. This process prevents the lens from properly focusing light on the retina at the back of the eye, resulting in a loss of vision.

    Lutein's link to cataracts is recent but well documented. Studies published in The American Journal of Clinical Nutrition found that women with the highest intake of lutein and its fellow carotenoid antioxidant, zeaxanthin, had a 22 percent reduced risk for cataracts; men had 19 percent reduced risk.

    “Many people have been told that nothing can be done about cataracts—that they are a natural effect of the aging process,” says Robert Abel, Jr. M.D., author of The Eye Care Revolution and member of the Lutein Information Bureau Advisory Board. “But they're now finding out that dietary changes, including consumption of lutein, may have a significant impact on risk reduction.”

    At the same time, consumers are taking charge of their eye health and seeking out possible solutions. A recent independent survey of consumers shows lutein awareness at 44 percent across all age groups and at more than 57 percent among consumers aged 65 years or older.

    Mounting scientific evidence also has convinced eye doctors of the many benefits of lutein, with 84 percent currently recommending lutein to their patients, according to an independent survey of 300 U.S. ophthalmologists and optometrists.

    These eye doctors also support use of lutein for long-term eye health (91 percent), believe consumers should supplement their diet with lutein daily (71 percent) and believe lutein is the nutrient that best supports long-term eye health (58 percent).

    antioxidant foods lutein zeaxanthin leafy greens

    What is lutein?

    Lutein (LOO-teen) is a nutrient found predominantly in vegetables, particularly in dark green, leafy vegetables such as spinach and kale. Lutein belongs to a class of natural, fat-soluble pigments called carotenoids. It promotes long-term eye health in two ways. First, acting as a light filter, lutein protects the eyes from some of the damaging effects of the sun. Second, as an antioxidant, it protects the eyes from the damaging effects of aging.

    Foods considered good sources of lutein and zeaxanthin include:

    • Eggs
    • Leafy greens like spinach, kale, turnip greens, collard greens, and romaine lettuce
    • Broccoli
    • Zucchini
    • Garden peas and Brussels sprouts

    Lutein is found naturally in the human body. In fact, it is the only carotenoid found in large quantities in the retina and at low levels in the lens of the eye. The human body is unable to manufacture lutein, however, so the body must rely on the consumption of lutein-rich foods or lutein supplements to replenish lutein levels and counteract oxidative damage from light as well as the effects of aging.

    A 1994 Harvard University study by Dr. Johanna Seddon pointed first to lutein's important role in maintaining long-term eye health. Since then, more than a dozen scientific studies published by such peer-reviewed medical journals as the Journal of the American Medical Association, Archives of Ophthalmology and the American Journal of Clinical Nutrition have continued to show an association between lutein intake and various long-term eye health benefits.

    Editor's Note: Look for a good quality supplement combination of Lutein and Zeaxanthin containing either FloraGLO® brand lutein or Lutemax 2020 and Zeaxanthin. Check our Products We Like section for more information on recommended products

    Lyc-O-Mato® Standardized Natural Lycopene Complex

    by James Balch, M.D.

    The good news is that there is clinical proof you can build a powerful antioxidant defense system against prostate cancer. By incorporating LYC-O-MATO® (standardized natural tomato extract) into your daily nutrition program you can access remarkable fighting power against prostate cancer and a host of other degenerative diseases.

    The standardized natural tomato extract contains several phytonutrients found in tomatoes including lycopene, tocopherols, vitamin E, phytofluene, phytoene, phytosterols, beta carotene and more. LYC-O-MATO is extracted from non-GMO tomatoes grown in Israel that contain four times the lycopene content of tomatoes grown elsewhere.

    A six-year Harvard Medical School study of healthy males found that consuming tomatoes, tomato sauce or pizza more than twice a week, as opposed to never, was associated with a reduced risk of prostate cancer of 21 to 34 percent, depending on the food.

    As exciting as its cancer-prevention potential is the evidence that shows lycopene may help fight existing cancer. A recent paper published in the Cancer Epidemiology, Biomarkers and Prevention by Omer Kucuk, M.D., professor of medicine and oncology, and his colleagues at the Karmanos Cancer Institute in Detroit, Michigan, evaluated the effect encapsulated LYC-O-MATO had on patients with existing prostate cancer. In this study, Dr. Kucuk and colleagues followed 30 men with localized prostate cancer who were scheduled to undergo surgical removal of the prostate. For three weeks prior to surgery the study participants were randomly assigned to receive either 250 milligrams LYC-O-MATO from LycoRed Natural Products, Beer-Sheva, Israel (which contains 15 milligram of lycopene) twice daily or no intervention. Following removal of the prostates, the glands were analyzed to determine whether there were any differences between the two study groups.

    antioxidant foods LYC-CO-MATO tomato_extract

    The investigators found that the treated group had smaller tumors, which were more likely to be confined to the prostate. Levels of serum PSA were found to decline in the patients who received LYC-O-MATO tomato extract. In addition, the tumors in patients who consumed this natural lycopene showed signs of regression and decreased malignancy.

    “This was the first published report from a randomized prospective clinical trial showing the efficacy of a tomato extract supplement against prostate cancer,” said Dr. Kucuk. “Previous reports were largely epidemiological studies showing an association between consumption of tomato products and decreased risk of prostate cancer. Furthermore, our findings suggest that a tomato extract in the form of LYC-O-MATO may not only help prevent prostate cancer but also may be useful in treating prostate cancer.”

    Research using standardized LYC-O-MATO natural tomato extract is also good news for mild hypertensive patients reluctant to make lifestyle changes.

     

    Findings published in the The American Journal of Hypertension provide evidence that LYC-O-MATO may help lower blood pressure in hypertensive patients. The study, presented at the Sixteenth Annual Scientific Meeting of the American Society of Hypertension on May 18, 2001, may provide a new alternative for about 50 million Americans who have hypertension.

    Americans interested in lowering their risk of high blood pressure are frequently encouraged to exercise and follow a low-fat diet rich in fruits and vegetables. Typically, however, many are reluctant to make changes in their lifestyles. In fact, according to NOAH, an online health resource maintained by City University of New York, only 68 percent are aware of their high blood pressure condition and only 27 percent have it under control. High blood pressure contributes to 75 percent of all strokes and heart attacks.

    Now there is a natural alternative to controlling hypertension that may prevent Americans from making difficult lifestyle changes and/or taking drugs with harmful side effects.

    In a single-blind, placebo-controlled crossover trial, Esther Paran, M.D., the study's principal investigator, evaluated the effect of LYC-O-MATO® on grade 1 hypertensive patients. In this study, 30 grade 1 hypertensive patients between the ages of 45–60 were administered a daily dose of identical placebos for the first four weeks of the study, followed by a 250 mg daily dose of LYC-O-MATO® for the final eight weeks of the study.

    Preliminary results of this study indicate a significant reduction in systolic blood pressure in treated patients. “We are optimistic about LYC-O-MATO'S potential in managing hypertension,” Dr. Paran said. “The results of this study demonstrate the ability of LYC-O-MATO® to reduce systolic blood-pressure, warranting additional studies in the future.”

    Other recent studies suggest that LYC-OMATO ® also provides a considerable level of defense against degenerative diseases including heart disease. Considering the results of these studies, combined with its positive effects on blood pressure, the importance of maintaining a normal level of natural phytonutrients like lycopene, phytoene, phytofluene and beta carotene in the human body is evident. It is recommended that individuals consume at least 80–250 mg of LYC-O-MATO® per day, which contains 15 mg of lycopene as well as other phytonutrients, to maintain good health.

    www.lycomato.com, or visit the American Society of Hypertension Web site at www.ash-us.org

    Grape Seed Extract and the French Paradox

    Antioxidant Foods Grape Seed Extracts

    What is the French paradox?

    Several years ago, epidemiologists studying heart disease in Europe noticed something strange—high fat leads to heart disease, right? Not in France. The French eat a large amount of cream, rich sauces, delicious desserts and a wide variety of tasty cheeses. Yet heart disease is lower in France than the rest of Europe. This phenomenon is called the French paradox. Check this out—the French imbibe more wine than the rest of Europe.

    The goodness of wine—flavonoids

    What's in the wine? Water, alcohol and several other compounds (such as sulfur dioxide, carbon dioxide, tartaric acid) and more importantly flavonoids. Flavonoids are a large group of phenolic compounds that occur in fruits, cereals, legumes, vegetables, nuts, seeds, herbs, spices, stems and flowers and also in beverages such as tea, cocoa, beer and wine. Flavonoids have several properties that could prevent heart diseases. They are antioxidants that help with the oxidation of low-density lipoproteins (LDL). They also have anti-inflammatory properties and a beneficial effect on blood vessels as well.

    Grape seed—a vital source of flavonoids Grape seeds contain 5–8 weight percent of flavonoids. Commercially available grape seed extracts such as MegaNatural™ Gold (Polyphenolics, Madera, California) are a rich source of flavonoids. Benefits of flavonoids For several years scientists at the University of California-Davis have studied the effect of flavonoids from grape seeds on blood vessels and how it can reduce cardiovascular risk factors. Loss of endothelium-dependent relaxation (EDR) due to atherosclerosis is the primary cause for the formation of plaque in coronary arteries that leads to heart disease. EDR is caused by the release of nitric oxide (NO) from endothelial cells of the blood vessel. Experimental evidence led to the speculation that the release of NO could be mediated by a series of events that are initiated by a receptor, which is specific to flavonoids. EDR can be readily demonstrated by control experiments using established procedures. The effect of flavonoids on EDR was studied in detail over the past several years. Previous studies regarding the effect of flavonoids on EDR yielded conflicting results, possibly due to the variations in he quality of the extracts examined. However, recent studies using the commercially available grape seed extract MegaNatural Gold provided conclusive evidence that flavonoids have a protective effect against the development of endothelial dysfunction.

    In the experiments, a group of rabbits fed only with cholesterol showed loss of EDR. But, a group of rabbits fed with both grape seed extract, MegaNatural Gold and cholesterol showed no loss of EDR, proving the protective effect of the grape seed extract, MegaNatural Gold.

    Antioxidant activity of grape seed extracts Another study at the University of Scranton has demonstrated the superior antioxidant activity of grape seed extracts (GSEs) overwine, grape juice, vitamin C and vitamin E. Commercial products like MegaNatural Gold were used for both the in vitro and in vivo studies.

    In one such study, a significant increase in the blood plasma antioxidant activity was observed within one or two hours after the consumption of grape seed extract. Nine human volunteers were given a 600 mg dosage of GSE and by using the RANDOX bio-assay study an increase up to 12 percent of blood plasma antioxidant activity was observed. This dosage could be correlated to drinking 300 ml of red wine or consuming 1250 mg of vitamin C.

    In order to determine the GSE dosage that is required to have a higher bio-availability of polyphenols in blood plasma for improved antioxidant activity, nine subjects were given varied dosages of the flavonoid, epicatechin. Epicatechin is one of the flavonoids present in all grape seed extracts. The in vivo antioxidant study has shown that a dosage of 300 mg was more effective than 200 mg. In fact at 300 mg the antioxidant capacity in the blood was still increasing after four hours, indicating that at this dose the antioxidant effect will remain in the blood for six to eight hours.

    A long-term study involving a dosage of 2 x 300 mg⁄day of GSE with 17 human volunteers was also conducted to understand the beneficial effect of GSE in reducing high cholesterol. Patients with high cholesterol experienced a decline in total cholesterol up to 12 percent and a corresponding decrease up to 16 percent in LDL, the so-called “bad cholesterol” as well.

    These studies have once again confirmed the long-term effect of GSE s in controlling the level of cholesterol and triglycerides and reducing the risk of heart disease.

    Implications for heart disease Endothelial dysfunction (loss of EDR) exists in hypertensives, diabetics, smokers, postmenopausal women and individuals with hyperlipidemia. All of these conditions are potential cardiovascular risk factors. Experimental evidence leads to the belief that polymeric flavonoids as a part of the diet may have a protective effect against the development of endothelial dysfunction. These findings, along with the established anti-inflammatory and antioxidant effects of flavonoids, could be a possible explanation for the French paradox.

    A substitute for aspirin for heart health?

    Many individuals take an aspirin a day to prevent their blood from becoming too “sticky.” Technically they are trying to prevent an increase in platelet aggregation. Blood platelets are like tiny band-aids in that they help to seal wounds by causing the blood to clot. Unfortunately, if the platelets clump (aggregate) too readily, they can cause a great deal of damage to the arteries. They can further the development of arterial plaques and they can reduce the flow of blood through the capillaries. Diabetics and smokers are two groups which commonly suffer from poor circulation and excessive platelet aggregation. Not surprisingly, both groups suffer from elevated rates of damage to the arteries.

    Aspirin may provide some potential benefits for the heart, but it also has a number of side effects. The best known of these are damage to the stomach and the small intestine, but there are other dangers such as excessive bleeding (an increase in bleeding time—including inside the eye) and a reduced rate of repair to the tendons and the joints.

    Do we really need these side effects? Of course not. Grape seed extract provides extended protection against platelet aggregation without causing any unwanted increase in bleeding time. A number of tests have confirmed this protection including human trials conducted by Serge Renaud of the French National Institute of Health and Medical Research. Dr. Renaud demonstrated that grape seed extract can protect against the rebound in platelet aggregation which follows the ingestion of alcohol. Moreover, the compounds found in grape seed extract have a special affinity for the surfaces of the vascular system, the “pipes” as it were, of the body. This special affinity appears to improve the elasticity and the permeability of the capillaries, veins and arteries—the entire vascular system. Grape seed extract protects the ground substance (the proteoglycan matrix) of the blood vessels directly while at the same time it reduces the unwanted adhesion of platelets and other blood components. The suggested intake for these benefits is 200 to 300 milligrams (mg) per day.

    The Health Advantage of Food-form Selenium

    by Bill Sardi

    “The finding that selenium, an essential nutrient posing negligible risk at the 200 mcg intakes studies, can substantially cut the risk of death from cancer is really a revolutionary finding. I cannot think of any other agent, nutritional or pharmaceutical, that is proven to cut the deaths from cancer by half in any human population anywhere in the world. “These remarkable clinical outcomes with selenium for cancer prevention are not a deviation from other research with selenium conducted with animals, with selenium-antioxidant enzymes, with cells in culture. Yet the potential they represent for cutting the emotional, spiritual and financial costs that cancer imposes on human society is almost beyond belief. Just shut your eyes for a moment, take a deep breath and think of all the people you have known who suffered and died from cancer.”

    —Parris M. Kidd, Ph.D., science editor Total Health

    SCIENTISTS FIRST CALLED SELENIUM TOXIC. THEN FOLLOWING ITS RECOGNITION FOR ANIMAL HEALTH, RESEARCHERS IDENTIFIED IT AS AN ESSENTIAL ELEMENT FOR HUMAN GROWTH.

    Now investigators wonder where the health benefits of selenium stop. The first selenium function in animals wasn't discovered until 1973. Dr. John Rotruck and his colleagues at the University of Wisconsin demonstrated that selenium was incorporated into molecules of an enzyme called glutathione peroxidase (GPX). This vital enzyme protects red blood cells, cell membranes and sub-cellular components against undesirable reactions with soluble peroxides. The discovery of GPX opened the door to our understanding of how selenium is protective against cancer, heart disease, arthritis and accelerated aging.

    This much misunderstood trace mineral may not gain the status of a drug simply because its primary role is disease prevention. Wherever soil is rich in selenium, certain diseases of livestock are virtually non-existent.

    But how could selenium, provided in dosages less than the weight of a paper clip, protect a 150-pound human from disease?

    Selenium and Cancer

    In what was called the most startling cancer prevention study ever published, University of Arizona and Cornell University researchers recently discovered that selenium food supplements significantly reduce the incidence of nearly all forms of cancer. In 1996 researchers Larry Clark, Gerald Combs and Bruce Turnbull of Cornell University reported on the 10-year use of a 200 microgram supplement of protein-bound selenium among 1312 patients with a history of basal cell or squamous cell skin cancer. While selenium had no effect upon skin cancer, it had a startling effect upon other types of tumors.

    A Harvard researcher was quoted as saying: “If the effect of selenium is this large, it would be more important than anything else we know about in cancer prevention.” The results of the multi-center study were so surprising, many health researchers still want more proof.

    Larry Clark, the senior researcher in this study, remarked that the type of selenium used in this study is not commonly found in all vitamin supplements. It's a special type of selenium that is grown organically in yeast. “Most of the selenium on the market is inorganic sodium selenite or sometimes they throw sodium selenite into yeast, but they are not bound together as the yeast grows, yet it is still called high-selenium yeast.”

    Which type of selenium supplement?

    In plant foods, selenium is bound to an array of amino acids (methionine, cysteine, others) and is thus a more stable form. In 1984, a MIT study determined that organically-bound forms of selenium are able to increase the body selenite exchangeable pool size about 70 percent more effectively than inorganic selenite or selenate. The superiority of protein-bound selenium is demonstrated in recent study where selenium-enriched broccoli was shown to inhibit colon tumors in rodents. Researchers observed that selenium-enriched broccoli is more effective than inorganic forms of selenium against colon tumor formation.

    Another example of the superiority of protein-bound selenium over inorganic selenium has become apparent in studies of eye disease. One report suggests that “dietary supplementation with selenium should be explored as a means of preventing macular degeneration.” However, researchers have found that blood levels of selenium were lower among patients with macular degeneration even though seven of 10 patients studied took selenium supplements, mostly consisting of 80 micrograms of inorganic selenium (selenate). Lack of consumption of selenium does not appear to be the problem in these cases. Researchers surmise that the form of selenium is of importance. Some studies report that even 200 microgram doses of inorganic selenium fails to increase blood plasma levels of selenium in the eye, while amino acid-bound selenium increases plasma and whole blood levels.

    Consumers should look for organically-bound selenium in supplements rather than the inorganic forms (selenite, selenate). The question is how to duplicate the same selenoproteins provided in plant foods in a food supplement?

    Slow-growing Saccharomyces cerevisiae, baker's yeast, is employed to bind amino acids naturally with selenium. Some selenium food supplements only mix inorganic selenium with yeast but this is a shortcut that fails to do what nature does—slowly incorporate selenium into an array of about 20 amino acids. Yet the label on these food supplements may still read “selenium yeast.”

    Numerous food supplements provide selenium bound only to one amino acid, selenomethionine. But the food supplement that dramatically reduced the cancer risk in 1996 employed a form of selenium bound to a full array of amino acids, like in foods. Only one brand of food supplement provides this complete food-form selenium, called SelenoExcell.

    Due to years of misinformation the word “yeast” draws the attention of some consumers who believe they must avoid yeast products. Beneficial nutritional baker's yeast does not contribute to yeast infections such as Candida albicans. Selenium yeast is carefully pasteurized and dried after it is grown. This kills the yeast and it can no longer grow or multiply. Brewer's yeast has been a staple of the health food industry since its inception and is no cause for concern.

    Only one company is going through all the trouble to manufacture a consistently reliable form of selenium organically bound to a full array of amino acids as found in foods. It goes by the trade name SelenoExcell.™. All forms of selenium have health benefits. But we have to go with the science. Until we know more, look for that branded ingredient.

    Bill Sardi is president of Knowledge of Health, San Dimas, California.

    ROSMARINIC ACID

    by Rina Reznik, Ph.D.

    To protect ourselves we invest in lifestyle changes, exercise, a healthy diet and supplementation. Antioxidants are only one element in the big picture, so products with multiple uses are particularly useful. After all, there's a limit to the number of supplements we can swallow in a day, let alone afford, so we need to supplement wisely. For example, consuming un-denatured whey protein raises intracellular glutathione levels and takes advantage of its three protective functions: T-cell synthesis, anti-oxidation and detoxification. Spirulina is an effective dietary antioxidant with dozens of well-known health benefits. Rosmarinic acid is another product that offers multiple advantages.

    Rosemary and its cousins, oregano and thyme, have been known for their medicinal properties for centuries and rosemary oil has long been used in cooking, aromatherapy and in hair and skin tonics. It has been described traditionally as good for the skin, scalp, digestion and treatment of colds and is used as an antiseptic, stimulant and antispasmodic. Today medical scientists are particularly interested in rosmarinic acid for its anti-inflammatory, antiallergic and antioxidant properties.

    Rosmarinic acid's multiple value also lies in its boxer's one-two approach: first, as a purely natural food additive it prevents or neutralizes the harmful oxidation that takes place while food is on the shelf, enhancing its quality and helping to prevent an additional tax on the body's over-burdened defense system. Then once the food is eaten, the same additive turns out to be a powerful dietary antioxidant. Of course it can also be used for direct supplementation. An added bonus is that rosmarinic acid does not interfere with intracellular oxidant-antioxidant balance and enables the immune system's phagocytes to use their free-radical weapons effectively against incoming disease organisms.

    RA's antioxidant power

    The most common free radicals attacking living tissue are reactive oxygen species (ROS)—or oxyradicals. They include the peroxyl, nitric oxide and superoxide-anion radicals plus singlet oxygen, peroxynitrite and hydrogen peroxide. Worst of all is the dangerous hydroxyl radical, formed by the combination of the weaker superoxide radical with hydrogen peroxide. Rosmarinic acid neutralizes the superoxide-anion and thus makes a major contribution to curbing oxidative damage in the body.

    Rosmarinic acid also takes the heat of the more well-known antioxidants by getting into the fray and dealing with free radicals first, leaving vitamins C, E and others intact for later use. This extract is also one of the few antioxidants able to cross the blood-brain barrier and combat the superoxide radical in the brain, where researchers hope it may help prevent or combat such degenerative conditions as Alzheimer's disease.

    Researchers at the Israeli biotechnology company, RAD Natural Technologies, discovered that certain natural species of the plant Origanum vulgare contained particularly high concentrations of rosmarinic acid. Without genetic modification the plant yields a highly purified extract that is effective in very low concentrations. With neither solvents nor processing chemicals, RAD Natural Technologies is able to preserve the integrity of the plant extract and produce a water-soluble powder that can alternatively be emulsified and thus dissolved in fats and oils. It is ideal for industrial applications. If you've always thought of antioxidants as pills and dietary supplements, think again.

    The company's rosmarinic acid product is called Origanox and it is sold for food processing, cosmetic and dietary purposes. Its antioxidant properties preserve natural pigments, odors and flavors and also protect vitamins and other active ingredients from the degenerative effects of oxidation. It also possesses antibacterial, antifungal, antiviral and anti-inflammatory properties and is easily absorbed into the skin, where it potentially supports to neutralize the harmful effect of ultraviolet radiation.

    Rosmarinic acid maintains its electron-absorbing properties at sustained high temperatures. That means that when it is added to edible oils, the number of free radicals released by frying is diminished. It is stable for long periods and at temperatures as high as 180 C⁄356 F so it can be baked into foods without impairing its antioxidant properties.

    In Summary

    Free radicals come at us from every conceivable direction and we need a good variety of antioxidants to protect ourselves. Some, like glutathione, are produced by the body, and are dependent upon a supply of raw materials from dietary sources. Others, like vitamins C and E, are built into the foods we eat or supplement in our diets. We may not be used to thinking of food preservatives as health aids but rosmarinic acid is a valuable aid that supports to preempt free radicals before they form in stored food and prevents the most harmful effects resulting from cooking with all sorts of oils. It also functions as a powerful antioxidant with the rare ability to cross the blood-brain barrier.

    The essential oil of Origanum vulgare is a powerful, anti-microbial agent and natural, antiseptic product. It has many, very promising applications in certain feed and food products besides being a flavor enhancer and therapeutic component in health food supplements. This potent and adaptable product promises to become a valuable addition to our preventive medicine arsenal.

    Tocotrienols—Their Role In Health

    by Andreas M. Papas, Ph.D.

    TOCOTRIENOLS ARE MEMBERS OF THE VITAMIN E FAMILY.

    Mention vitamin E and most people, even scientists, think alphatocopherol. It is only recently that scientists and now the consumers have been reminded that vitamin E is a family of compounds.

    Tocotrienols are members of the vitamin E family. Unlike some vitamins which consist of a single compound, vitamin E consists of eight different compounds, four tocopherols and four tocotrienols (designated as alpha, beta, gamma and delta). Our food contains all eight compounds. Most vitamin E supplements, however, contain only alphatocopherol because it was thought that only this one was important. Emerging research proved this understanding wrong. In order to get the full spectrum of the many benefits of vitamin E we must use products that contain the complete family of tocopherols plus tocotrienols.

    Tocotrienols are most abundant in cereal grains and the fruit of palm and are extracted commercially from palm oil and rice bran oil.

    Tocopherols and Tocotrienols: Similarities and Differences

    Each tocotrienol has similarities to the corresponding tocopherols. For this reason tocotrienols, like tocopherols, are excellent antioxidants. Tocotrienols however, have three unsaturated sites on the tail of the molecule. Scientists are discovering important and unique benefits of tocotrienols.

    Underscoring the importance of taking the whole vitamin E family is the evidence that not only tocotrienols but even the other tocopherols have unique functions different from those of alpha-tocopherol. For example:

    • Gamma-tocopherol, not alpha, is the effective form for fighting nitrogen radicals which contribute to the development of arthritis, multiple sclerosis (MS) and diseases of the brain such as Alzheimer's.
    • Gamma-tocopherol and its major metabolite inhibit cyclooxygenase activity. This effect is very important because cyclooxygenase causes inflammation, which contributes to the progression of chronic diseases including heart disease and cancer.
    • High blood levels of gammatocopherol in men are associated with lower risk of prostate cancer.

    The Science Behind the Unique Functions of Tocotrienols

    Research produced evidence of the biochemical basis of the important and unique effects of tocotrienols. Tocotrienols and in particular gamma-tocotrienol appear to act on a specific enzyme called 3-hydroxy-3-methylglutarylcoenzyme A reductase (HMG-COA) involved in cholesterol production in the liver. Tocotrienols suppress the production of this enzyme, which may result in less cholesterol being manufactured.

    Tocotrienols slow down the growth of some types of human cancer cells, and particularly breast cancer cells, while alpha, beta and gamma tocopherols are ineffective. Gamma-tocotrienol suppresses the growth of rat melanoma and human leukemia cells, human breast adenocarcinoma and human leukemic cells.

    Benefits for Cardiovascular Health—Clinical Evidence

    The strongest evidence yet for tocotrienols comes from a clinical study in which 50 patients had stenosis of the carotid artery. These patients, ranging in age from 49 to 83 years, were divided in two groups. One group received approximately 650 milligrams of tocotrienols plus tocopherols. The other group received a placebo. All patients were examined with ultrasonography which measures the narrowing of the carotid artery.

    • Placebo group: Fifteen patients showed worsening of the stenosis, eight remained stable and two showed some improvement.
    • Tocotrienol (plus tocopherol) group: Three patients showed minor worsening and 12 remained stable. What is remarkable is that 10 patients showed regression of stenosis—their condition improved.

    The tocotrienol group had also significant reduction in TBARS, a test that measures oxidation. A tocotrienol-rich extract from rice bran oil reduced triglycerides and LDL in these patients. We are studying further these effects of tocotrienol-rich products from rice bran oil.

    Topical Use of Tocotrienols

    Tocotrienols, like tocopherols, protect the skin against damage from ultraviolet radiation, pollution, cigarette smoke and other stress factors. Topically applied tocotrienols and tocopherols penetrate the entire skin to the subcutaneous fat layer within 30 minutes and significantly increase the concentration of these antioxidants in the deeper subcutaneous layers.

    Safe and Effective Use Levels

    Tocotrienols and vitamin E in general have an excellent safety record.

    How much tocotrienols to take? Please remember that tocotrienols are available commercially as mixtures with tocopherols. If you are at high risk for heart disease, you may consider levels up to 300 mg per day of tocotrienols. For the great majority of consumers who want to get the benefit of the complete vitamin E family, much lower levels may still provide benefits.

    It is extremely important to take products that contain natural tocopherols plus tocotrienols. While our individual needs differ, the following general guidelines might help choose the right level for you.

    • The adequate level—the 100/100 system: Take 100 IU plus 100 mg of mixed tocopherols and tocotrienols. For healthy young adults with no family history of chronic disease.
    • The medium level—the 200/200 system: Take 200 IU plus 200 mg of mixed tocopherols and tocotrienols. For young adults with some risk factors and healthy people without risk factors up to 50 years old.
    • The high, yet very safe dose—the 400/400 system: Take 400 IU plus 400 mg of mixed tocopherols and tocotrienols. This is the level for people who, because of their family history for chronic disease, age, level of stress, diet and other factors, want to take a higher level.

    Andreas M. Papas, Ph.D., is the author of The Vitamin E Factor (paperback) and editor of the scientific book Antioxidant Status, Diet, Nutrition and Health, Dr. Papas is senior technical associate at Eastman Chemical Company and adjunct professor, at the College of Medicine of East Tennessee State University and senior scientific advisor, Cancer Prevention Institute, Harvard School of Epidemiology. —www.vitaminefactor.com

     

    Ten Additional Important Antioxidants

    COQ10 FOR ANTI-AGING AND A HEALTHY HEART

    Coenzyme Q10 is an antioxidant compound similar to vitamin K and is naturally manufactured in the liver as well as every cell in the body. But even though COQ10 is produced in the body, many people have deficiencies, especially those suffering from cardiovascular disease and heart failure.

    Every cell must have a way of obtaining energy. In cardiac cells, as well as throughout the body, oxygen-based production occurs within the cellular power plants called mitochondria. Here COQ10 provides essential energy in its most basic form—adenosine triphosphate (ATP)—the energy of life. Without adequate COQ10 as a cofactor, ATP synthesis slows down, eventually leaving the cell in a vulnerable state.

    Dietary sources of COQ10 come mainly from beef heart, pork, chicken liver and fish (especially salmon, mackerel and sardines). Vegetarians typically will not get enough COQ10 unless they eat large quantities of peanuts and/or broccoli. The average person only gets five to 10 mg of COQ10 each day from diet alone. Most people would benefit from far more COQ10 than can be gleaned from the daily diet.

    Although COQ10 can be synthesized by the body, many individuals are deficient in this vitamin. Illness depletes the body's stores even further. Taking cholesterol-lowering drugs such as HMG-COA reductase inhibitors can literally “kill” COQ10 synthesis. Other drugs, such as beta blockers and some of the older antidepressants, also interfere with COQ10-dependent enzymes, lowering its concentration in the body.

    Any women taking a statin drug, especially those at high risk for breast cancer, should take at least 100 mg of COQ10 a day.

    VITAMIN C

    Vitamin C (ascorbic acid) is a very powerful nutrient and the premier water-soluble antioxidant. It participates in over 300 biochemical reactions in the body and is important in maintaining homeostasis as well as building tissue.

    Death is inevitable if vitamin C is not provided. It is truly essential to human life. New research into the actions of vitamin C has sparked a greater understanding of the remarkable health-promoting properties of this essential nutrient. The new evidence validates that vitamin C supports cardiovascular and respiratory function, cognition, bone development and mineralization, vision and may even lower the risk of stress-related diseases and certain types of cancer.

    • Cardiovascular Health. High dietary vitamin C intake has been shown to significantly reduce the risk of death from heart attacks and strokes in numerous population studies. Also, researchers have found that vitamin C offsets spasms of the coronary arteries.
    • Immunity Booster. A recent study reported an 85 percent lower incidence in cold and flu symptoms with high vitamin C doses.
    • Collagen Maintenance. Vitamin C is important for the formation and maintenance of collagen, the intercellular cement that binds tissues together. Collagen provides tensile strength to bones, cartilage, teeth, tendons and ligaments. There is a positive association between vitamin C and bone mineral density (BMD) in postmenopausal women.
    • Cancer. Vitamin C functions as an antioxidant to protect cellular structures, including genetic mechanisms, an enhancer of the immune system and to protect against cancer-causing environmental irritants and pollutants. Many of the benefits of vitamin C supplementation stem from its antioxidant properties. The antioxidant properties of vitamin C become more important as aging occurs, especially if there is stress or disease.

    ASTAXANTHIN

    Astaxanthin is a member of an elite class of carotenoids known as xanthophylls.

    Astaxanthin is believed to be the most active of these carotenoids. Researchers have discovered that the most abundant and concentrated form of astaxanthin is found in the natural, renewable material extracted from microalgae.

    Because of its unique molecular structure, astaxanthin is unlike any other antioxidant in that it can perform a wide variety of tasks including:

    • increasing HDL (good cholesterol)
    • increasing strength and endurance
    • stimulating the immune system
    • protecting and enhancing eye health.

    Astaxanthin has been shown to perform effectively the three key tasks of an antioxidant: quenching, scavenging and trapping free radicals. Astaxanthin is more powerful than many other carotenoids because:

    • its low molecular weight allows it to actually cross the blood-brain barrier, making it available to the eye, brain and central nervous system
    • it is more resistant to damage, allowing it to scavenge longer and trap more types of free radicals
    • it acts like a bridge, transporting free radicals along its long chain to water-soluble antioxidants like vitamin C inside and outside of the cell.

    ACETYL-L-CARNITINE

    Acetyl-L-carnitine is a special form of carnitine that has the particular ability to optimize brain function. Acetyl-L-carnitine is able to cross into the brain more effectively than regular carnitine. It therefore enhances brain cell function much better than regular carnitine. As we age, acetyl-L-carnitine levels in our brains go down and for optimal brain function, supplements of acetyl-L-carnitine become mandatory.

    Acetyl-L-carnitine acts in many ways to prevent the deterioration of brain cells that normally happens with age. It does this in many ways. It acts as a powerful antioxidant, provides the brain with healing energy and increases levels of a very important messenger molecule called acetylcholine. It is acetylcholine which becomes deficient in the brains of Alzheimer's patients and that is why these patients have such poor memory function. By increasing levels of acetylcholine, acetyl-L-carnitine helps the memory work better and may help prevent Alzheimer's disease as well.

    GREEN TEA

    Green tea is the antivirus, anticancer, super antioxidant. It is the most popular of Asian drinks and has been known for centuries to have a long list of health benefits. Interestingly, after water it is the most widely consumed beverage on the earth.

    Dr. Earl Mindell states, “The antioxidants specific to green tea are polyphenols, bioflavonoids that act as super antioxidants by neutralizing harmful fats and oils, lowering cholesterol and blood pressure, blocking cancer-triggering mechanisms, inhibiting bacteria and viruses, improving digestion and protecting against ulcers and strokes. The specific type of polyphenol found in green tea is called a “catechin.”

    Other ingredients in green tea include the green chlorophyll molecules but also important are the proanthocyanadins similar to those found in grape seed extract, pine bark, bilberry and gingko. The specific tea is a variety called Camellia sinensis. Camellia sinensis in the West is known as black tea, such as Earl Grey tea, orange pekoe tea or English breakfast tea.

    The antioxidant properties of green tea are responsible for its most important benefits. The Chinese always claimed that tea slows aging but it was not until we understood the role of oxidation in aging and the antioxidant function of flavonoids that we knew how this mechanism might work. Researchers at University of California- Berkeley found that green tea extract was the best at scavenging the deadly hydroxyl radicals. Three diseases that we focus on regarding green tea are heart disease, AIDS and cancer.

    GREEN FOODS

    It is well known now through modern research that green foods are rich in vitamins, minerals and enzymes. They help protect against cancer, heart disease, digestive problems and many other modern disorders. Green vegetables are excellent sources of complex carbohydrates, dietary fiber, beta carotene and chlorophyll. Possibly most important of all, they have potent antioxidant activity. Besides, they are low in fat and high in nutrients, an excellent combination.

    The importance of green foods in the diet is now being validated scientifically worldwide. It is amazing how long it takes us to discover that foods were made correctly in the first place. They contain exactly what we need in their natural state. We have to find a way to take advantage of the whole foods naturally made and most of us are not doing that presently with our diets. In fact, it would be difficult for anyone to eat green plants to equal the amount of nutrition in concentrated green food supplements. So until you are ready to sidle up to a fivepound salad of spinach, watercress, alfalfa and kelp, the concentrated supplements mentioned here are probably your best source for the vital nutrients you need from green foods.

    ALPHA LIPOIC ACID

    Alpha lipoic acid is a vitamin-like antioxidant that is produced naturally in the body and found in certain foods such as potatoes and red meat.

    It is the only fat and water soluble free radical antioxidant, therefore, it is easily absorbed and transported across cell membranes, protecting us against free radicals both inside and outside our cells.

    Alpha lipoic acid has been used for years throughout Europe to treat and prevent complications associated with diabetes, including neuropathy, macular degeneration and cataracts. Studies show that diabetics lower their insulin requirements; this also helps reduce complications.

    An abundance of promising research has also shown the ability of alpha lipoic acid to inhibit replication of HIV and other viruses, to protect LDL cholesterol from oxidation which is associated with cardiovascular disease, to protect the liver from damage from alcohol or other toxins and also to prevent damage from radiation.

    We do not obtain enough alpha lipoic acid through the diet to obtain this protection, so supplementation is required—100 to 200 mg daily. Therapeutic doses are higher.

    GLUTATHIONE

    Essential for many cellular functions, glutathione is a tripeptide of connected molecules composed of three nonessential amino acids: cysteine, glutamic acid and glycine.

    Without glutathione people suffer from an inability to detoxify metabolic wastes and in eliminating toxic substances like heavy metals and other environmental poisons. This may lead to heart disease, joint disorders, cancer and problems with the endocrine, immune and nervous systems.

    Even healthy people under stress can become subject to a disrupted balance. They could be sick or battling an inflammation or infection, or healing from an injury, while more free radicals are created and must be eliminated. Glutathione will do the job. It will also seek out the free radicals formed when people are exposed to cigarette smoke, alcohol, mercury, air pollution, food additives, pesticides and ultraviolet light.

    Needed cofactors that properly assist glutathione function are the following: alpha lipoic acid, riboflavin (vitamin B2) and the minerals selenium and zinc, of which selenium is a vital component.

    PYCNOGENOL®

    Extracted from the bark of Pinus maritima, the coastal pine tree found in abundance in southern France, pycnogenol is made up of a combination of flavoids that occur naturally in small amounts in some fruits and vegetables. However, antioxidant-rich fruits, vegetables and nuts lose their potency when they are harvested, processed, frozen and cooked. A study in the British scientific journal, The Lancet, showed that risk of heart disease was 50 percent lower in populations that consumed high amounts of flavonoids (at least 30 mg a day) than groups that took in low amounts of these antioxidants.

    Decades of laboratory research and clinical studies conducted by Dr. Jack Masquelier show that pycnogenol contains approximately 40 natural ingredients including proanthocyanadins, organic acids and related bioavailable components such as glucosides and glucose esters. It is a potent antioxidant that protects against free radicals, has been shown to be many times more powerful than vitamin C or vitamin E and has the added benefit of working synergistically with many nutrients that support health.

    Millions of people in Europe and the United States, athletes in particular, rely on pycnogenol to maintain skin health and overall health during the aging process. It is one of the best tried-and-tested products in its category, non-toxic and non-carcinogenic.

    GARLIC

    Garlic is the most studied herb in history. It has more benefits than any other single food. Tradition has told us that garlic has beneficial effects on health and longevity. Science is beginning to validate many of these claims including garlic's ability to prevent heart disease, fungal overgrowth and infectious diseases, the ability to remove toxic metals from the body and its powerful antioxidant and anticancer effects.

    A Summary of Garlic's Many Benefits Includes:

    • having been shown to have powerful immune-boosting properties and may be valuable in fighting off viral infections such as the common cold.
    • having been shown to help lower blood pressure in those with hypertension.
    • working as a natural antibiotic and reducing the number of harmful bacteria in the body.
    • reducing blood cholesterol and triglyceride levels and has been shown to limit the deposition of plaque on artery walls.
    • having been shown to help the body eliminate parasites.
    • reducing the amount of the yeast, Candida albicans, in the human GI tract and has been shown to be beneficial in fighting systemic yeast infections.
    • having been shown to lower blood sugar and be of significant benefit to diabetics.
    • having been shown in population and laboratory studies to help prevent a wide variety of cancers.
    • containing selenium, a cancerpreventing, immune-boosting and antiinflammatory nutrient.

    Editor's Note: We highly recommend the most studied garlic supplement on the market. Kyolic AGED Garlic is Organically grown, and aged up to 20 months to enhance the nutritional value of the garlic, remove its pungent odor and make it gentle on the stomach. Kyolic is heavily researched with over 750 scientific studies.

    BOOKS FOR FURTHER READING ON ANTIOXIDANTS:

    Drug Muggers
    Which Medications Are Robbing Your Body of Essential Nutrients—and Natural Ways to Restore Them
    by Suzy Cohen, RPh
    Rodale Books; 1 edition (February 15, 2011)

    The Garlic Cure
    by James F. Scheer, Lynn Allison and Charlie Fox
    Alpha Omega Press, Fargo, ND (2002)

    The Garlic Cookbook: For the Best and Most Unique Garlic Recipes You Will Ever Try!
    by Martha Stephenson
    CreateSpace Independent Publishing Platform (April 19, 2017)

    Healthy Healing—Avoid side effects, drug interactions and high medical costs with America's Original Guide to Natural Healing (14th Edition)
    by Linda Page, N.D., Ph.D.
    Healthy Healing Publications; 14th edition (November 15, 2011)

    Prescription for Nutritional Healing
    Fifth Edition: A Practical A-to-Z Reference to Drug-Free Remedies Using Vitamins, Minerals, Herbs & Food Supplements
    by Phyllis A. Balch, CNC
    Avery; 5 Rev Upd edition (October 5, 2010)

    The Longevity Kitchen—Satisfying, Big-Flavor Recipes Featuring the Top 16 Age-Busting Power Foods
    by Rebecca Katz and Mat Edelson
    M. Evans and Company, Inc., New York, NY (1998)

    Brain Maker:
    The Power of Gut Microbes to Heal and Protect Your Brain–for Life
    by David Perlmutter, MD
    Little, Brown and Company; 1 edition (April 28, 2015)

    The Grain Brain Whole Life Plan:
    Boost Brain Performance, Lose Weight, and Achieve Optimal Health
    by David Perlmutter, MD, Kristin Loberg
    Little, Brown and Company (November 15, 2016)

    Editorial Reviews

    "The Grain Brain Whole Life Plan provides a step-by-step, proven approach that will help you reclaim and sustain health, vitality, and happiness for a lifetime." Melissa Hartwig, author of Food Freedom Forever and coauthor of The Whole30

    "Dr. Perlmutter, an acclaimed neurologist, has for years been a pioneer of the gut-brain connection. In The Grain Brain Whole Life Plan, he combines his clinical expertise, insights into the latest scientific developments, and immense compassion into a powerful prescription for brain health." David S. Ludwig, MD, PhD, professor, Harvard Medical School, and author of Always Hungry?

    "Dr. Perlmutter's groundbreaking work has changed the way we think about inflammation—its causes and the damage it can do. I've gotten tremendous benefit from his books and The Grain Brain Whole Life Plan gives us simple and direct ways to prevent and treat diseases in easy and delicious ways." Bonnie Raitt

    "Dr. David Perlmutter is one of the first people to not only suggest that modern degenerative diseases are likely caused by poor diet and alterations in gut health, but he has produced clinical research indicating these conditions may be avoided or reversed by altering one's diet and lifestyle. The Grain Brain Whole Life Plan is the culmination of more than 35 years of clinical practice and research that will help you look, feel and perform your best." Robb Wolf, author of The Paleo Solution

    "Dr. Perlmutter sifts through the emerging research on how to create brain and body health. And he created The Grain Brain Whole Life Plan, a manifesto for the new medicine, the roadmap for how to care for the one precious human life that you have. If you want to live strong, feel good, boost your brain function, and become more connected and engaged to your own life, then you need a plan. This book is that plan." Mark Hyman, MD, author of Eat Fat Get Thin and director of Cleveland Clinic Center for Functional Medicine

    "If everyone were to follow The Grain Brain Whole Life Plan, there would be a dramatic reduction in obesity, diabetes, cancer, dementia, arthritis—in short, the world would be a better place." Dale Bredesen, MD, professor and director of Alzheimer's Disease Research, UCLA

    "The Grain Brain Whole Life Plan presents a comprehensive, practical, step-by-step approach aimed at people suffering from a variety of chronic neurological, psychiatric, and medical conditions. Dr. Perlmutter not only gives specific dietary recommendations, including a diet rich in plant-based fiber, but also prescribes important lifestyle changes such as physical exercise, stress reduction, and improvement in sleeping habits." Emeran A. Mayer, MD, author of The Mind Gut Connection and director of the Oppenheimer Center for Stress and Resilience at UCLA

     

  • In nutrition, is there evidence for a category of “super” fruit and vegetables? Are there accepted definitions that make “superfruit” more than just a marketing term?

    Unfortunately, the answer to both questions is a firm “maybe.” In retrospect from the vantage of late 2014, the “super” in “superfruit” seems to have arisen chiefly from the novelty of a small number of ingredients that have not typically been part of Western diets. Also important was a period of giddy promotion by The Oprah Winfrey Show and The Dr. Oz Show circa 2008. The primary initial objects of the “buzz” and, let’s face it, hype, were probably only a handful of items that included acai berry, acerola, goji berry and pomegranate that were promoted as exhibiting unique health benefits.

    By late 2009, the producers of The Oprah Winfrey and Dr. Oz Shows were backpedaling from promotions that were widely presented as endorsements of superfruit greater nutrition and health advantages not shared by ordinary fruit and vegetables. Today the pendulum, after years of enthusiasm and attempts to add ever more exotic fruit and vegetables to the category, has swung back the opposite direction due to consumer fatigue.

    Novelty is important to the category. There are some superfruits, such as sea-buckthorn berries, which are widely consumed in Europe and Asia, yet barely known in America. Black currant is another item with tremendous nutritional value that is widely consumed in Europe, but has not taken off here. Given that black currant is equivalent in nutrition to recognized superfruits such as bilberry and cranberry, and far superior to acai berry, its slow launch into this market is a bit of a mystery.

    The next interesting developments in super foods at this point likely will not involve actual superfruit, but may encompass vegetables, as well. The “fruit” side of the category has been expanded very far already. Instead, emerging foods such as the extremely anthocyanin-rich black rice (the “forbidden” “longevity” rice) and the new black garlic may be the next wave to capture consumer attention. Asia, the source of many items considered to be superfruit in the US, is not immune to the category, as black garlic and black rice attest. Another super food in parts of Asia, again a vegetable, are “wild” and “mountain” varieties of bitter melon.

    Pomegranate, bilberry, blueberry, goji, cranberry and grape will continue to be popular because they have defined niches and histories of use. Moreover, each is backed by considerable science and on-going research. Other current superfruit entries may not continue to be so successful in the marketplace. Acai, despite its current presence, may not endure because there remains little or even no science behind it. In its native Brazil, acai is used for weight gain; in America, it is sold for weight loss. Both of these uses cannot be right and the lack of science already has caught up with many acai products.

    Superfruit As A Category
    The idea behind this marketing term is that these fruits are exceptionally rich in nutrients, perhaps especially antioxidants. Commonly known fruits seldom have been marketed as superfruits despite the nutrient density of many of them; the key is exoticism and marketing plus, usually, new taste or aroma sensations.

    Quality control can represent difficulties. Fruits from exotic locales may be hard to police for continuity in color, taste, nutrient content, and so forth. Fruits sourced from areas that continue to use leaded gasoline can bring special issues for testing and quality control. Moreover, many of the so-called superfruit are the subjects of limited cultivation, which means that suddenly demand can seriously distort availability and pricing.

    Superfruit As Antioxidants And The Changing Acceptance Of Orac Testing
    One common promotion of superfruit has been for antioxidant capacity, something often measured as ORAC. Oxygen radical absorbance capacity (ORAC) is a method of measuring antioxidant capacities in samples. ORAC includes more than just antioxidant capacity. Testing labs can break out fast- and slow-acting antioxidants, the status of free radical generation in terms of peroxide and hydroxyl radicals, and so forth and so on. At one point in time, it was thought that ORAC values of total antioxidant capacity of supplements would provide good guides to the overall health promoting capacities of these products. However, today it is realized that the role of antioxidants in the body is not so simple. For instance, supposed ORAC measures of the antioxidant value of vitamin E vary widely. Vitamin E has been reported as only slightly inferior to astaxanthin as an antioxidant and also as 550 percent less potent. Moreover, although vitamin E is a great antioxidant, two decades of clinical research has failed to demonstrate unequivocal health benefits. The consensus today is that there is no direct relationship between antioxidant activity per se and health activity.

    Matters get worse. Antioxidant claims are made for hundreds of nutrients, but this leads to a marketing paradox. To paraphrase a famous observation, if every supplement is an antioxidant, then being an antioxidant no longer is anything special. ORAC claims today do not carry the marketing punch that they carried a decade ago. ORAC claims may still be useful, but nutrients now need to demonstrate specific benefits. For instance, black currant offers more than just an extremely potent ORAC value — it also offers potent and proven protection for the brain and the eyes from its content of particular anthocyanins, including delphinidin-3-rutinoside and cyanidin- 3-glucoside. Similar protection is found with bilberry. Just presenting a high ORAC value will not confer these protections.

    Some Superfruits And Vegetables Of Note

    No matter how one looks at American eating habits, it is clear that additional nutrition of the sort supplied by fruits and vegetables should be welcomed. For instance, less than ten percent of American teenagers consume the recommended daily allotment of fruits and vegetables. Here are some of the choices currently available:

    Bilberry — Wild blueberry (Vaccinium angustifolium) is a lowgrowing shrubs in the genus Vaccinium (family Ericaceae); it is a rich source of several different anthocyanins, bilberry is famous for supporting night vision and intestinal health as well as neurologic, metabolic and cardiovascular health; a similar fruit in terms of benefits and contents is the maqui berry (Aristotelia chilensis).

    Bitter Melon — Also known as bitter gourd (Momordica charantia), this vegetable is widely viewed as providing significant benefits in diabetes and, in its wild and mountain forms, for promoting longevity (see the Total Health website article on this topic).

    Cherries — The dark varieties are rich in anthocyanins, with tart cherries (Prunus cerasus) being especially rich in these nutrients; significant anti-inflammatory, especially for joint aches and pains and muscle pain and stress from exercise and overexertion; cardioprotective.

    Cranberry— Cranberries (Vaccinium macrocarpon) are best known for supporting urinary health, in particular inhibiting bacteria from attaching to the bladder wall Goji — Goji or wolfberry (Lycium barbarum) has been promoted for a large variety of benefits and conditions, including diabetes, high blood pressure, fever, and age-related eye problems.

    Mangosteen — Mangosteen (Garcinia mangostana) contains various anthocyanins, xanthones and tannins; useful for inflammation, intestinal and immune health.

    Pomegranate — Pomegranate (Punica granatum) is an ancient fruit famous for its healthful properties since ancient times; supports cardiovascular health, prostate health, metabolic health, exercise recovery and many other benefits; is on the coat of arms of many medical organizations stretching back to the high Middle Ages in Europe.

    Conclusion
    Many or even most of the superfruits and vegetables beginning to make their names in the US have long records of promoting health in other parts of the world. These foods provide concentrated nutrition based on healthful phytochemical components. Some of the superfruits and vegetables, although exotic in origin, can readily be made a part of the daily diet. This, of course, is the best way to approach superfruits, i.e., move them out of the “exotic” category and into a daily use category. Small changes in habits can then be harnessed to provide real health benefits over the long run.

  • Ashwagandha (Withania somnifera) is an herb that grows in India, Pakistan, Afghanistan, Spain, parts of the Middle East, Africa, and the Canary Islands. It is sometimes called "Indian ginseng," probably because it is employed as an adaptogen or tonic in Ayurvedic traditional medicine.1 It is not, however, related to "true" ginseng (P. ginseng, P. quinquifolium). The root is used medicinally, although the seeds, shoots, juice and leaves have all been used traditionally as well.2

    Phytochemical contents
    Ashwagandha has been found to contain steroidal lactones called withanolides. Much of the pharmacological activities Ashwagandha are attributed to the presence of these steroidal lactones.3,4 In addition, the roots provide alkaloids, 18 fatty acids, beta sitesterol, polyphenols and phytosterols.5

    Common uses
    Traditional use of Ashwagandha includes its use as an aphrodisiac. As a folk remedy, it has a long list of uses. It is listed in the Indian Materia Medica, and is part of Ayurvedic, Siddha, and Unani traditions. Published research on Ashwagandha reveals a variety of potentially valuable and diverse uses for improving and supporting health. Following is a discussion of each of these potential uses.

    Chemotherapy and radiation therapy Chemotherapy and radiation therapy are commonly used to treat individuals with cancer. One problem associated with both of these treatments are that they can reduce white blood cell (WBC) count; and chemotherapy can cause mylosuppression-a reduced capacity of bone marrow to produce WBC. In turn, this can lead to patient susceptibility to other infections. Animal research has shown that Ashwagandha is capable of increasing WBC count when used with either chemotherapy or radiation therapy.6,7 Similar research has shown that this herb can also reduce mylosuppression in association with chemotherapy.8

    In addition, several studies have shown Ashwagandha to be effective at inhibiting tumor growth in test animals while enhancing radiosensitivity, the ability of radiation therapy to kill tumor cells.9,10,11,12,13,14 In one study, Ashwagandha was able to inhibit tumor growth in animals even without radiation therapy.15

    Immune function
    Besides it potential for treating cancer, research has shown that Ashwagandha is capable of improving immune function. This was demonstrated in one study where mice experienced an increase phagocytosis and intracellular macrophage activity against a pathogen when given a daily dose of Ashwagandha.16 In another study on mice, Ashwagandha was shown to improve the tumor-fighting ability of macrophages in relation to a known carcinogen.17 Ashwagandha has also prevented myelosuppression in mice treated with immunosuppressive drugs, and led to a significant increase in hemoglobin concentration, red blood cell count, white blood cell count, platelet count, and body weight, in addition to providing immunostimulatory activity.18

    Finally, in a series of experiments, various techniques were used to suppress the immune response of mice, then subjected them to infectious organisms. In each experiment, mice pretreated with one of six herbs, including Ashwagandha, fared significantly better than control mice. Mice receiving the herbs demonstrated faster recovery, less disease, and lower mortality. These herbs blunted artificially-induced neutropenia (a deficit of neutrophils, a type of white blood cell) and stimulated leucocytosis (an increase of white blood cells). In treatments that employed both antibiotics and these herbs the combination produced a significantly greater healing effect than either treatment used alone. The herbs also reduced stress-induced damage.19

    Antioxidant activity
    Apparently, one of Ashwagandha's mechanisms of action is that it has significant antioxidant activity. In one study, Ashwagandha significantly reduced free radical oxidation in the livers of mice, while concurrently increasing the activity of antioxidant enzymes such as superoxide dismutase (SOD) and catalase.20 Other research has shown that Ashwagandha reduced free radical activity in stress induced animals.21 In another study, Ashwagandha administered once daily for 21 days, induced a dose related increase in SOD, catalase, and glutathione peroxidase in rats.22 One interesting study showed that as part of an Ayurvedic herbal formulation, Ashwagandha increased SOD activity in the pancreas of diabetic rats.23

    Brain chemistry
    Ashwagandha has also been used in the treatment of mental and emotional well-being, since it can influence brain chemistry in positive ways. For example it has been shown to be capable of improving memory and enhancing cognitive function in animal research by improving acetylcholine activity in the brain and binding to acetylcholine receptor sites.24 This herb also has GABA mimetic activity-that is it can mimic some of the activity of the relaxing neurotransmitter GABA.25 Clinical trials have shown that Ashwagandha can alleviate a reactive type of depression without sedating. Instead, it "optimizes mental and psychomotor performance by easing the mental stress bundle."26

    Aphrodisiac
    In a clinical trial of ashwagandha on the aging process in over 100 men, 71.4 percent of the men reported improvement in their capacity of sexual performance. These responses seem to support the herb's traditional use as an aphrodisiac.27

    Anti-inflammatory & anti-arthritic activity
    Ashwagandha has demonstrated some very effective anti-inflammatory activity. In fact, in one study its anti-inflammatory activity was comparable to that of a 5-mg/kg dose of hydrocortisone.28 In another study, five plants were assessed for their anti-inflammatory activity. Results showed that while each of the plants possessed varying degrees of anti inflammatory activity, Ashwagandha possessed the greatest.29

    Perhaps the anti-inflammatory activity of Ashwagandha explains its efficacy in arthritis. In a one-month study, a combination of Ashwagandha, Boswellia serrata, Tumeric, and zinc were given to 42 patients with osteoarthritis. At the end of the study, there was a significant drop in severity of pain and disability.30

    Anti-stress & anabolic activity
    Given their relative similarities in function, a comparative study was performed on Ginseng (Panax ginseng), and Ashwagandha (Withania somnifera). Using aqueous suspensions of the powdered root, each herb was tested in mice: (1) for anti-stress activity (by the swimming endurance test); and (2) anabolic activity (by the weight measurement of body weight and levator ani muscle). In the swimming endurance test, Ashwagandha and Ginseng each showed anti-stress activity as compared to the control group, although the activity was higher with Ginseng. In the anabolic study, the mice treated with Ashwagandha showed a greater gain in body weight than those treated with Ginseng, although significant anabolic activity was observed for both herbs.31

    Morphine dependence
    Although only tested thus far in mice, Ashwagandha may help reduce dependence on morphine. In a 10-day study, Ashwagandha, helped prevent tolerance to morphine from developing. This is important since developing a tolerance for a drug often leads to increased doses and abuses. Also, Ashwagandha suppressed morphine withdrawal jumps, a sign of the development of dependence to morphine.32

    Glandular support
    As if all of the aforementioned benefits weren't sufficient, Ashwagandha also supports the function of the thyroid, liver and pancreas. After being administered on a daily basis for 20 days, mice experienced an increase in both T3 and T4 thyroid hormones. In the same study, Ashwagandha also decreased free radical activity in the liver.33 In another study, a combination of Ashwagandha and other herbs (Tinospora cordifolia, Eclipta alba, Ocimum sanctum, Picrorrhiza kurroa and shilajit) administered once daily for 28 days decreased blood sugar levels in diabetic rats, and decreased free radical activity in their pancreas as well. This activity in the pancreas is important since the reduction in blood sugar may be due to pancreatic free radical scavenging activity, which protects the cells that produce insulin.34

    Safety
    To determine any potential toxicity of Ashwagandha (as well as Panax Ginseng), a study was conducted in rats with 90 days oral administration using three doses. Food consumption, body weight, haematological, biochemical and histopathological parameters were studied. The results were that brain, heart, lung, liver, spleen, kidneys, stomach, testis and ovaries were normal on gross examination and histopathologically. Sub-acute toxicity studies in rats did not reveal any toxicity.35 Apparently, Ashwagandha is a safe herb. Even so, one research has suggested that Ashwagandha is contraindicated during pregnancy.36

    References

    1. Choudhary M, et al, Phytochemistry (1995) 40(4):1243-6.
    2. Lindner S, Australian Journal of Medical Herbalism (1996) 8(3):78-82.
    3. Choudhary M, et al, Phytochemistry (1995) 40(4):1243-6.
    4. Elsakka M, et al, Rev Med Chir Soc Med Nat Iasi (1990) 94(2):385 7.
    5. Ibid.
    6. Davis L, Kuttan G, J Ethnopharmacol (1998) 62(3):209 14.
    7. Kuttan G, Indian J Exp Biol (1996) 34(9):854 6.
    8. Praveenkumar V, et al, Tumori (1994) 80(4):306 8.
    9. Ganasoundari A, Zare SM, Devi PU, Br J Radiol (1997) 70(834):599 602.
    10. Devi PU, Indian J Exp Biol (1996) 34(10):927 32
    11. Sharad AC, et al, Acta Oncol (1996) 35(1):95 100.
    12. Devi PU, Int J Radiat Biol (1996) 69(2):193 7.
    13. Devi PU, Sharada AC, Solomon FE, Cancer Lett (1995) 95(1 2):189 93.
    14. Devi PU, Sharada AC, Solomon FE, Indian J Exp Biol (1993) 31(7):607 11.
    15. Devi PU, et al, Indian J Exp Biol (1992) 30(3):169 72.
    16. Dhuley JN, Immunopharmacol Immunotoxicol (1998) 20(1):191 8.
    17. Dhuley JN, J Ethnopharmacol (1997) 58(1):15 20
    18. Ziauddin M, J Ethnopharmacol (1996) 50(2):69 76.
    19. Dahanukar S, Thatte U, Phytomedicine (1997) 4(4):359-368.
    20. Panda S, Kar A, J Pharm Pharmacol (1998) 50(9):1065 8.
    21. Dhuley JN, J Ethnopharmacol (1998) 60(2):173 8.
    22. Bhattacharya SK, Satyan KS, Ghosal S, Indian J Exp Biol (1997) 35(3):236 9.
    23. Bhattacharya SK, Satyan KS, Chakrabarti A, Indian J Exp Biol (1997) 35(3):297 9.
    24. Schliebs R, et al, Neurochem Int (1997) 30(2):181 90.
    25. Mehta AK, et al, Indian J Med Res (1991) 94:312 5.
    26. Katiyar CK, et al, Immunomodulator Products from Ayurveda: Current status and future perspectives. In: Immunomodulation, S.N. Upadhyay (Ed), (1997) Narosa Publishing House, New Delhi, India, pp. 163-187.
    27. Linder, op cit
    28. al Hindawi MK, al Khafaji SH, Abdul Nabi MH, J Ethnopharmacol (1992) 37(2):113 6.
    29. Al Hindawi MK, et al, J Ethnopharmacol (1989) 26(2):163 8.
    30. Kulkarni RR, et al, J Ethnopharmacol (1991) 33(1 2):91 5.
    31. Grandhi, et al, Journal of Ethnopharmacology (1994) 44:131-135.
    32. Kulkarni SK, Ninan I, J Ethnopharmacol (1997) 57(3):213 7.
    33. Panda S, Kar A, J Pharm Pharmacol (1998) 50(9):1065 8.
    34. Bhattacharya SK, Satyan KS, Chakrabarti A, Indian J Exp Biol (1997) 35(3):297 9.
    35. Aphale AA, et al, Indian J Physiol Pharmacol (1998) 42(2):299 302.
    36. Linder, op cit
  • The common honeybee is a fascinating little insect that offers us humans some valuable natural foods with health-promoting benefits. These "super foods" include bee pollen, royal jelly and propolis.

    Bee Pollen
    Bee pollen is the pollen gathered from plants by honeybees, and brought back to their hive. Bee pollen contains all of the eight essential amino acids in amounts that vary between five to seven times the levels found in equal weights of traditional high protein foods. It also contains vitamins A, D, E, K, C and bioflavonoids, as well as the complete B-complex, especially pantothenic acid (B5) and niacin. The high levels of vitamin B5 are particularly beneficial for the adrenal glands, which are adversely effected during stress. Bee pollen has been used traditionally as an anti-aging food, and an energy food. As a matter of fact, it has been used by a number of Olympic athletes to improve their performance.

    Antioxidant/anti-aging
    The oxidative damage caused by free radicals have been implicated in quite a number of disease processes, and is the primary factor in aging. Antioxidants are capable of providing protection, sometimes significant protection, against this oxidative damage. Interestingly, bee pollen appears to provide significant antioxidant activity, which may explain its traditional use as an anti-aging food. One animal study demonstrated that bee pollen (as well as beta-carotene oil) was able to abolish the effects of harmful ionizing radiation on the brain. This was a function of bee pollen's antioxidant properties.1 X-rays can activate lipid peroxidation (i.e., free radical activity) in the liver, and adversely affect liver glutathione (i.e., antioxidant) systems. Animal research has shown that bee pollen is able to normalize the activity of important glutathione system enzymes in the liver.2 Another study demonstrated that bee pollen was able to markedly decrease lipoperoxide levels in animals fed a limited diet, compared to animals not receiving bee pollen.3

    Free radicals can also contribute towards lipofuscin, also known as age pigments and liver spots. These are commonly seen as small brownish spots on the back of hands on elderly people. Liver spots are actually an outward sign of internal toxic accumulation of lipofuscin; including, but not limited to vital nerve centers such as the brain. Such toxic accumulation of lipofuscin can block nutrient absorption in the cells. Animal research has shown that bee pollen markedly reduces lipofuscin in the cardiac muscle (heart), significantly inhibits the increase of lipofuscin in cardiac muscle, liver, brain and adrenal gland cells.4

    Increase red blood cells & hemoglobin
    Traditionally, bee pollen has been used as a food to help increase energy levels. One possible explanation for this use is that bee pollen helps to increase red blood cells, and the hemoglobin component of red blood cells. Since it is the hemoglobin in red blood cells that carry oxygen for energy metabolism, this may explain the relationship between bee pollen and energy. For example, in one animal study, bee pollen resulted in increases in hemoglobin and serum iron.5 In a study on humans, bee pollen and several other Chinese herbs were found to increase the number of red blood cells.6

    Bee Propolis
    Propolis is a resinous substance collected from various plants by bees. It is used in the construction of, and to seal the cracks in, the beehive. For this reason, propolis is often referred to as "bee glue." It is a mixture of resin, essential oils and waxes, and also contains amino acids, minerals, ethanol, vitamin A, B complex, E, and flavonoids.7 In addition to its construction adhesive application, propolis also has antimicrobial properties, which helps to prevent microorganisms from entering the hive and causing illness.

    Antibacterial/antifungal activity
    In-vitro (i.e., "test tube") research has demonstrated that propolis has significant antibacterial activity, and also helps to reduce oxidation potential.8 Other research has also verified that the growth of bacteria (particularly Gram-positive bacteria) is inhibited by propolis.9,10,11 In addition to its antibacterial properties, propolis has also been found to have antifungal effects against Candida albicans.12 Furthermore, research has shown that propolis has specific antibacterial activity against several strains isolated from patients with infections in their upper respiratory tracts.13

    Dental research
    Some interesting dental studies have also been conducted on the value of propolis, including its antibacterial properties. In one study, propolis was found to inhibit certain enzymes and bacteria that are chief culprits in the formation of dental caries (cavities).14 Other research on propolis has also demonstrated a similar antibacterial effect, including a reduction of bacteria in saliva.15

    Another dental-related value of propolis is its desensitizing properties for teeth. In one study, propolis was administered to 26 women over a period of four weeks. The women were tested for teeth sensitivity by two methods: 1) cold air stimuli, and 2) subjective reporting of pain. Eighty-five percent of the subjects in this study reported that they were highly satisfied; the propolis had significant desensitizing effects on their sensitive teeth.16

    Anti-viral activity
    Besides its antibacterial properties, propolis has also demonstrated significant antiviral properties, particularly where cold viruses are concerned. For example, in one study, preschool and school children were treated with propolis during the cold season. Favorable effects of propolis treatment were observed, including a lowering of the number of cases of common cold with acute or chronic symptoms, and decrease and suppression of the viruses and other microbes in the upper airways.17 Other research demonstrated that propolis was effective in shortening the duration of a cold. Specifically, regression of symptoms occurred in the first day of propolis therapy, and the complete recovery followed in one day in five patients, in two days in16, and in three days in three. The placebo group had full recovery in 4.80 days. In the propolis-treated group the symptoms lasted 2.5 times shorter than in placebo one.18

    Propolis also has promising antiviral properties against herpes viruses.19 In-vitro research has shown that propolis has activity against herpes simplex virus type 1, reducing viral activity and replication.20 Other in-vitro research has also shown that the flavonoids found in propolis caused a reduction of intracellular replication of herpes virus strains.21

    Finally, in one in-vitro study propolis was found to suppress the replication of HIV 1 virus, as well as modulate immune responses.22

    Two to four tablets of propolis daily are typically used.

    Royal Jelly

    Royal jelly is a substance produced by worker honeybees. If fed to an ordinary female bee in the larval stage, royal jelly will transform her into the queen bee. As a queen, she will grow 1½ times normal size, become extremely fertile and lay over a thousand eggs each day. Incredibly, she may live over five years while all the other bees live only a few weeks. The only difference is that she receives royal jelly while the others don't.

    The chemistry of royal jelly
    Royal jelly is a complex mixture of proteins (12%), sugar (12%), fats (6%) and variable amounts of minerals vitamins and pheromones. About 15 percent of royal jelly is 10-hydroxy-trans-(2)-decanoic acid (HDA), which is probably the substance that causes the queen bee to grow so large. Royal jelly is particularly rich in B vitamins, with pantothenic acid dominating.

    Royal jelly folk use
    Royal jelly has a history of folk use as a skin tonic and hair growth stimulant. The skin benefits are supposed to include a nourishing process that reduces wrinkles, although there is no actual scientific research that supports these claims (or the hair growth claims). Royal jelly has also been considered to be a general tonic that has a general systemic action rather than any specific biological function, which benefits menopause and sexual performance. Perhaps it's most significant use has been as an aid for increasing energy.

    Royal jelly research
    Scientific research on royal jelly has revealed that it possesses antitumor activity in experimental mouse leukemia's.23 Additional research has demonstrated that royal jelly has antibacterial activity against Gram positive bacteria, but not against Gram negative bacteria.24 Furthermore, research with chronically diabetic rats demonstrated that royal jelly possesses an anti-inflammatory action and is able to augment wound healing.25 Royal jelly has also been shown to prevent the cholesterol elevating effect of nicotine26 , and has lowered serum cholesterol in animal studies.27 Some research has also demonstrated that royal jelly can lower cholesterol levels in humans.28,29 Cholesterol lowering research has shown that the typical dose used for this purpose is 50 100 mg daily.30

    References:

    1. Anan'eva TV, Dvoretskii AI, Radiatsionnaia biologiia, radioecologiia (1999) 39(2 3):341 4
    2. Bevzo VV, Grygor'eva NP, Ukrainskii biokhimicheskii zhurnal (1997) 69(4):115 7.
    3. Qian B; Zang X; Liu X, Chung kuo chung yao tsa chih (1990) 15(5):301 3, 319.
    4. Liu X, Li L, Chung kuo chung yao tsa chih (1990) 15(9):561 3, 578.
    5. Xie Y, Wan B, Li W, Hua hsi i k'o ta hsueh hsueh pao (1994) 25(4):434 7.
    6. Iversen T, et al, Journal of ethnopharmacology (1997) 56(2):109 16.
    7. Mahmoud AS, Almas K, Dahlan AA, Indian journal of dental research (1999) 10(4):130 7.
    8. Drago L, et al, Journal of chemotherapy(2000) 12(5):390 5.
    9. Kobayashi N, et al, In vivo (2001) 15(1):17 23.
    10. Marcucci MC, et al, Journal of ethnopharmacology (2001) 74(2):105 12.
    11. Grange JM, Davey RW, Journal of the Royal Society of Medicine (1990) 83(3):159 60.
    12. Koo H, et al, Archives of oral biology (2000) 45(2):141 8.
    13. Focht J, et al, Arzneimittel Forschung (1993) 43(8):921 3.
    14. Park YK, et al, Current microbiology (1998) 36(1):24 8.
    15. Steinberg D, Kaine G, Gedalia I, American journal of dentistry (1996) 9(6):236 9.
    16. Mahmoud AS, Almas K, Dahlan AA, Indian journal of dental research (1999) 10(4):130 7.
    17. Crisan I, et al, Romanian journal of virology (1995) 46(3 4):115 33.
    18. Szmeja Z, et al, The Polish otolaryngology (1989) 43(3):180 4.
    19. Esanu V, Virologie (1981) 32(1):57 77.
    20. Amoros M, et al, Journal of natural products (1994) 57(5):644 7.
    21. Debiaggi M, et al, Microbiologica (1990) 13(3):207 13.
    22. Harish Z, et al, Drugs under experimental and clinical research (1997) 23(2):89 96
    23. Tamura T, Fujii A, Kuboyama N, Nippon Yakurigaku Zasshi (1987) 89(2):73 80.
    24. Fujiwara S, et al, J Biol Chem (1990) 265(19):11333 7.
    25. Fujii A, et al, Jpn J Pharmacol (1990) 53(3):331 7.
    26. Abou Hozaifa BM, Badr El Din NK, Saudi Med J(1995) 16:337-42.
    27. Abou Hozaifa BM, Roston AAH, El Nokaly FA, J Biomed Sci Ther (1993) 9:35B44.
    28. Cho YT, Am Bee J (1977) 117:36-39.
    29. Liusov VA, Zimin IU, Kardiologia (1983) 23:105-9 [in Russian].
    30. Vittek J, Experientia (1995) 51:927-35.
  • Most of the substances that are classified as vitamins were discovered decades ago. Required in tiny amounts for normal growth and development, vitamins must be obtained from the diet. Determining vitamin status is not quite as straight forward as this suggests, which is one reason that new vitamins on occasion still are discovered. Ergothioneine, an amino acid that is relatively abundant in certain mushrooms, currently is being proposed by a number of scientists as the latest new vitamin. Evidence includes the existence of a specific cellular transporter, accumulation of the compound in cells followed by its retention.1,2 Solomon Snyder at the Johns Hopkins University School of Medicine not only has suggested that ergothioneine may be a vitamin, but also has concluded that for some purposes this would-be vitamin is as potent as glutathione, one of the body's most potent endogenous antioxidants and detoxifiers.3

    Anti-Aging Potential for Heart and Mind
    Mushrooms are rich sources of both ergothioneine and the well-known nutrient, glutathione.4 The edible fungi that are high in the one have been found to be high in the other. As a dietary source of these compounds, it is significant that mushrooms remain viable sources even after cooking,something not true of many nutrient sources.

    The antioxidant functions of glutathione include recycling (reducing) the vitamins C and E as well as serving as a critical free radical scavenger to support antioxidant activity in all tissues, especially the liver and phase 2 detoxification reactions. In its reduced (non-oxidized) form, glutathione acts as a substrate in conjugation reactions. Whereas phase 1 detoxification makes fat-soluble toxins more water soluble in preparation for elimination from the body, a step that actually can increase toxicity, phase 2 detoxification binds toxins to carriers, such as glutathione, sulfate, glycine and glucuronic acid. One role for ergothioneine may be cardiovascular protection.5 This could involve amelioration of chronic inflammatory states, such as are found in heart disease and related condition.6 As part of its anti-inflammatory function, it is interesting that ergothioneine is found together with glutathione in mushroom sources. Although glutathione is often almost totally depleted in the face of oxidative stress, ergothioneine concentrations tend to remain relatively stable. "These properties suggest a role for ET [ergothioneine] as a bulwark, a final defense for cells against oxidative damage. Its stability may help mitochondria cope with otherwise overwhelming stresses encountered even during relatively physiologic metabolism."7

    mushroom types

    Ergothioneine has been shown to be involved in protecting injured tissues.8 In this and a number of other functions, there is a clear overlap with glutathione. Of particular interest is the impact on neurodegenerative diseases. As one of the primary ergothioneine researchers, Robert Beelman of The Pennsylvania State University, recently commented,

    "It's preliminary, but you can see that countries that have more ergothioneine in their diets, countries like France and Italy, also have lower incidences of neurodegenerative diseases, while people in countries like the United States, which has low amounts of ergothioneine in the diet, have a higher probability of diseases like Parkinson's Disease and Alzheimer's. Now whether that's just a correlation or causative, we don't know. But, it's something to look into, especially because the difference between the countries with low rates of neurodegenerative diseases is about 3 milligrams per day, which is about five button mushrooms each day."9

    A study published last year by researchers in Singapore adds support for Dr. Beelman's hypothesis that ergothioneine is neuroprotective. As already mentioned, the compound seems to accumulate preferentially in tissues subject to oxidative stress and inflammation. Based on this, the Singapore-based scientists looked at whole blood levels in older individuals. Their finding was that ergothioneine levels were significantly lower in those over 60 years of age. In subjects suffering from mild cognitive impairment, blood levels, again, were lower than in age-matched controls. Researchers concluded that the decline suggests that deficiency in ergothioneine may predispose individuals to neurodegenerative diseases.10

    Of common edible mushrooms, ergothioneine concentration is highest in the porcini, an Italian favorite. Also tested and found adequate as sources, descending order of richness (strongly dependent on which portion of the growth cycle is involved), are shiitake, oyster, maitake, king oyster, and then, in a dead heat, portabellas, crimini and white button mushrooms.

    Unexpected Benefits
    Let's face it, consuming mushrooms merely as sources of an arcane newly discovered vitamin is not nearly as appealing as eating your favorite fungi for properly gourmet reasons (pizza topping, steak sauce, ravioli filling, etc.) while accruing unexpected benefits, such as weight maintenance or even weight loss. Recent studies suggest that one can be both gourmand and lean.

    For instance, University of Minnesota research found that mushrooms are more filling based on roughly equal amounts of calories than is 93 percent lean ground beef.11 Thirty-two healthy participants (17 women, 15 men) consumed two servings of mushrooms or meat for ten days, i.e., mushrooms (226 grams) and meat (28 grams) eaten in a randomized open-label crossover study. On the first day, fasted participants consumed protein-matched breakfasts of containing either mushrooms or meat. Participants rated their satiety using visual analogue scales at start and at regular intervals after the meal. Three hours later, participants were served an ad libitum (eat as much as desired) lunch. Participants were given mushrooms or meat to consume at home for the following nine days. Under these conditions, mushroom eaters consumed more fiber, but there was no significant difference in calorie intake over the ten days of the trial. The findings were that consuming the mushrooms led to less hunger during the day, greater feelings of satiety after meals and less desire to eat within three hours of the mushroom meal.

    The above trial lasted only ten days. The real question is "what happens if mushrooms are substituted for meat, say, for a year?" In fact, that trial has been conducted. A one-year, randomized clinical trial conducted by researchers at the Weight Management Center at Johns Hopkins Bloomberg School of Public Health and funded by the Mushroom Council found that substituting white button mushrooms for red meat enhanced weight loss and helped maintain that loss in among 73 obese adults (64 women and 9 men).12 Subjects substitute one cup of mushrooms per day for a protein serving while keeping the rest of their diet the same. Controls followed their normal diets. At the end of the trial, participants on the mushroom diet reported lower intakes of energy and fat, had lost more pounds and percentage body weight (an averaged seven pounds), had a lower body mass index, exhibited a smaller waist circumference (decreased by an average of 2.6 inches), had less total body fat, and had lower systolic and diastolic pressure (-7.9 and -2.5 mmHg, respectively).

    Mushrooms are relatively high in fiber and low in calories, meaning that they are not calorically dense. They also help to modulate blood sugar, a benefit that likely factors in to their impact on satiety. Whatever the mechanisms of action, being useful for achieving and maintaining significant weight loss over the course of a year while adding variety and taste to meals is a worthy achievement.

    The Latest on Mushroom Supplements

    Mushrooms used in cooking are the fruiting bodies, not mere mycelium. This is an important distinction, as well, for mushrooms used as dietary supplements. Unfortunately, supplements far too often are based only on the mycelium. A recent United States Pharmacopeia study confirms a lack of medicinal compounds in many Reishi supplements. As pointed out in a press release by the Nammex company, nineteen different Reishi mushroom products sold in the United States were tested for the compounds that characterize real Reishi mushroom (fruiting body).

    Researchers used scientifically identified and validated Reishi mushrooms as their standard. Various highly accurate testing methods were utilized, including HPTLC, Colorimetric method, GC-MS, and High Performance Size-exclusion Chromatography. The results of their study demonstrated clearly that only 5 of 19 samples could be verified as genuine Reishi mushroom. Most of the other products lacked characteristic triterpenoids and also had a starch-like polysaccharide profile that was inconsistent with Reishi mushroom.

    The researchers themselves concluded that the "results showed that the measured ingredients of only 5 tested samples (26.3%) were in accordance with their labels, which suggested the quality consistency of G. lucidum dietary supplements in the U.S. market was poor, which should be carefully investigated." 13

    References:

    1. Gründemann D, Harlfinger S, Golz S, Geerts A, Lazar A, Berkels R, Jung N, Rubbert A, Schömig E. Discovery of the ergothioneine transporter. Proc Natl Acad Sci U S A. 2005 Apr 5;102(14):5256–61.
    2. Gründemann D. The ergothioneine transporter controls and indicates ergothioneine activity—a review. Prev Med. 2012 May;54 Suppl:S71– 4.
    3. Paul BD, Snyder SH. The unusual amino acid L-ergothioneine is a physiologic cytoprotectant. Cell Death Differ. 2010 Jul;17(7):1134 – 40.
    4. Kalaras MD, Richie JP, Calcagnotto A, Beelman RB. Mushrooms: A rich source of the antioxidants ergothioneine and glutathione. Food Chem. 2017 Oct 15;233:429– 433.
    5. Servillo L, D'Onofrio N, Balestrieri ML. Ergothioneine Antioxidant Function: From Chemistry to Cardiovascular Therapeutic Potential. J Cardiovasc Pharmacol. 2017 Apr;69(4):183–191.
    6. Grigat S, Harlfinger S, Pal S, Striebinger R, Golz S, Geerts A, Lazar A, Schömig E, Gründemann D. Probing the substrate specificity of the ergothioneine transporter with methimazole, hercynine, and organic cations. Biochem Pharmacol. 2007 Jul 15;74(2):309–16.
    7. Paul BD, Snyder SH. The unusual amino acid L-ergothioneine is a physiologic cytoprotectant. Cell Death Differ. 2010 Jul;17(7):1134–40.
    8. Halliwell B, Cheah IK, Drum CL. Ergothioneine, an adaptive antioxidant for the protection of injured tissues? A hypothesis. Biochem Biophys Res Commun. 2016 Feb 5;470(2):245–250.
    9. http://news.psu.edu/story/491477/2017/11/09/research/mushrooms-are-full-antioxidants-may-haveantiaging-potential
    10. Cheah IK, Feng L, Tang RMY, Lim KHC, Halliwell B. Ergothioneine levels in an elderly population decrease with age and incidence of cognitive decline; a risk factor for neurodegeneration? Biochem Biophys Res Commun.2016 Sep 9;478(1):162–167.
    11. Hess JM, Wang Q, Kraft C, Slavin JL. Impact of Agaricus bisporus mushroom consumption on satiety and food intake. Appetite. 2017 Oct 1;117:179–185.
    12. Poddar KH, Ames M, Hsin-Jen C, Feeney MJ, Wang Y, Cheskin LJ. Positive effect of mushrooms substituted for meat on body weight, body composition, and health parameters. A 1-year randomized clinical trial. Appetite. 2013 Dec;71:379–87.
    13. Wu DT, Deng Y, Chen LX, Zhao J, Bzhelyansky A, Li SP. Evaluation on quality consistency of Ganoderma lucidum dietary supplements collected in the United States. Sci Rep. 2017 Aug 10;7(1):7792.
  • In Part 1 of this series, we reviewed the discovery of coenzyme Q10 and the initial studies that established CoQ10 as a very effective natural therapy for the prevention and treatment of cardiovascular disease. In addition to being a powerful antioxidant, early studies also revealed that CoQ10 is an essential for the generation of cellular energy (ATP) within the mitochondria of every cell in the body with the exception of red blood cells.

    Coenzyme Q10's dual functions (antioxidant and energy production) make it essential for the health of virtually all human tissues and organs. As a fat-soluble antioxidant, it protects proteins (like LDL-cholesterol), enzymes, fats (all cell walls/ membranes) and especially DNA from free radical damage. In terms of energy production, areas of the body with high rates of metabolic activity (high energy demands) such as the heart, lungs, kidneys, brain and immune system are especially sensitive to low levels of CoQ10.1

    Coenzyme Q10 and Cancer/History

    Early CoQ10-cell culture studies revealed that coenzyme Q10 resulted in an 80 percent reduction in the growth of cancer cells within 90 days.2 Animal studies published in the late 1990s reported that treatment with coenzyme Q10 resulted in suppression of tumor growth, reduced size and/or shrinkage of tumors and increased survival time.3,4,5

    In the late 1980s, Dr. K. Folkers began analyzing coenzyme Q10 levels in cancer patients. His testing revealed that virtually all cancer patients have CoQ10 levels that are extremely low. In 1994, Drs. K. Lockwood and K. Folkers reported treating 32 "high-risk" breast cancer patients with antioxidants, fatty acids, and 90 mg. of CoQ10.

    Six of the 32 women showed partial tumor regression. In one woman, the dosage of CoQ10 was increased to 390 mg. In one month, her tumor was no longer palpable and in another month, mammography confirmed the absence of tumor. Encouraged, another case having a verified breast tumor, after non-radical surgery and with verified residual tumor in the tumor bed was then treated with 300 mg. CoQ10. After three months, the patient was in excellent clinical condition and there was no residual tumor tissue.6

    In 1996, William Judy and Dr. Folkers reported the results of a CoQ10-prostate cancer study. Their results revealed that men with prostate cancer who were treated with 600 mg of CoQ10 daily achieved dramatic reductions in both PSA and tumor size.7 An interesting aspect of this study is that the men did not begin to show any signs of response until about 90 days into the trial.

    CoQ10 in Prostate Cancer

    Several clinical trials have also reported that coenzyme Q10 substantially protects against and/or reduces side effects in patients undergoing various forms of chemotherapy.

    A New Understanding of Cancer: In healthy cells, mitochondria utilize oxygen to produce energy. In cancer cells, energy production switches from away from oxygen and instead begins to utilize glucose/sugar for energy production. This was first discovered and explained by Otto Warburg, MD. Warburg was awarded the Nobel Prize in 1931 for discovering that cancer cells are low in oxygen because cellular respiration has switched from using oxygen to the fermentation of sugar. To summarize, healthy cells utilize oxygen to produce energy whereas cancer cells begin to utilize sugar for energy production. It is damage to mitochondria that causes this change in energy production.9

    "Cancer as a Metabolic Disease: On the Origin, Management and Prevention of Cancer" is the title of a very important book written by Thomas N. Seyfried, MD. Dr. Seyfried advances Otto Warburg's theory of cancer in a way that revolutionizes our understanding of cancer. Up until now, most scientists have assumed that cancer is a genetic disease resulting from DNA mutations/damage.

    Instead, Seyfried teaches us that cancer is a metabolic disease due to mitochondrial damage, which hinders the ability of cells to produce adequate energy. This causes the metabolic shift from oxygen to glucose for energy production, which is the hallmark of cancer cell metabolism.

    Coenzyme Q10/Cancer Answer: Drs. Warburg and Seyfried did not explain coenzyme Q10's role in protecting mitochondria from free radical damage and in mitochondrial energy production. In this article, we will explain how CoQ10 deficiency results in mitochondrial damage that progresses to metabolic changes in energy production, which results in the origin and progression of cancer.

    The Miracle Nutrient: Coenzyme Q10. Coenzyme Q10 plays two critical roles in this scenario. First, CoQ10 is required in several steps for energy production within mitochondria. Thus, coenzyme Q10 deficiency impairs mitochondria's ability to use oxygen for energy production. This causes a shift to using sugar, which characterizes cancer cell metabolism.

    Secondly, CoQ10 is a powerful antioxidant that neutralizes free radicals. This is especially important in mitochondria, because more free radicals are generated in mitochondria during the process of energy production than anywhere else in the body. Thus, coenzyme Q10 deficiency is a "double whammy" in that it weakens mitochondria's ability to produce energy (like an engine running out of gas) while also accelerating free radical damage to mitochondrial DNA (causing damage to the engine so it cannot function).

    Causes of Coenzyme Q10 Deficiency: The synthesis of coenzyme Q10 in the body is a complex process that requires multiple nutrients as cofactors. Over the past 80 years there has been a dramatic and continual decline in the nutritional content of our commercial/agricultural food supply. Reasons for this decline include:

    a) Rising levels of atmospheric CO2 is causing reductions in the mineral content of plants.10

    b) Massive use of pesticides and herbicides on agricultural crops, which kills the microbiome (bacteria) in the soil. Bacteria in the soil are necessary for the breakdown of organic matter and the delivery of nutrients into the plant.11

    c) A high percentage of the food that Americans consume are highly processes. Food processing results in substantial losses of nutritional content of the foods.12

    d) In "The Drug-Induced Nutrient Depletion Handbook," Ross Pelton lists multiple reports following classes of commonly prescribed drugs that cause depletion of coenzyme Q10: statin cholesterol-lowering drugs, oral contraceptives, hormone replacement therapy (HRT), drugs for diabetes, tricyclic antidepressants, major tranquilizers, beta-blockers, thiazide diuretics and vasodilators.13 Many more drugs probably deplete CoQ10, but just haven't been tested yet for their effect on CoQ10 biosynthesis.

    e) Increasing age, after 20 years of age, reduces CoQ10 synthesis in man (International CoQ10 Association).

    Other Therapeutic Applications: In addition to cardiovascular disease and cancer, studies have also been published showing that CoQ10 can provide therapeutic benefits in the following conditions: diabetes, radiation injury, periodontal disease, gastric ulcers, mitochondrial disorders, migraine headaches, obesity, kidney failure, acquired immune deficiency (AIDS), Parkinson's disease and Alzheimer's disease.

    CoQ10 and Life Extension: In addition to the many ways CoQ10 can help prevent and treat many disease conditions, it is also one of the most important nutrients for life extension and healthy longevity.

    When you understand CoQ10's critical roles in protecting mitochondria and producing energy, it seems obvious that it would slow down the onset of chronic degenerative diseases and increase longevity with healthy additional years. Imagine a growing number of vibrant, energetic centenarians.

    Coenzyme Q10 Doubles Lifespan in Mice: Emile Bliznakov, MD, who wrote "The Miracle Nutrient: Coenzyme Q10," conducted the following experiment. Dr. Bliznakov started his experiment with 100 "old" female white mice that were 16 to 18 months of age. One week for mice is roughly equivalent to one year of human life. Thus, the mice were in their 60s to 70s in human terms and already beginning to show some signs of decreased immunity and aging bodily functions.14

    These old mice were divided into two groups of 50 and maintained on optimally nutritious diets. One group were controls while the second group were regularly given doses of CoQ10.

    • At 28 weeks after the beginning of the study, 70 percent of the control mice had died compared to only 40 percent of the CoQ10-treated mice.
    • At 36 weeks, 100 percent of the control mice were dead while about 40 percent of the CoQ10-treated mice were still alive and active with most not showing the normal signs of physical deterioration that are commonly associated with advanced age.
    • At week 56, 10 percent of the CoQ10-treated mice were still thriving (2X longer than these mice would normally be expected to survive beyond the beginning of the experiment).
    • At the 80th week (remember the last control mouse died at week 36), four mice were still alive; at the 82nd week, the last mouse died. In human terms, this is a life span of roughly 130 years of age!

    Dr. Bliznakov explained the following remarkable visual differences between the two groups of mice towards the end when some of the control mice were still alive. The fur on the control mice that had not received CoQ10 had lost its sheen, became dull, coarse, matted and on some mice, clumps of hair had fallen out, leaving bald patchy spots and they were also very listless and spent most of their time lying around and not socializing. On the other hand, the fur in the coats of the CoQ10-treated mice remained smooth and soft, and they maintained a much greater level of activity and socialization. Another interesting feature was the fact that the CoQ10-treated mice still engaged in sexual activity whereas sexual activity had stopped among the control mice months earlier.

    Life extending effect of CoQ10 on CF1 female mice

    Human clinical life extension trials will be conducted in our lifetime. Several studies have reported CoQ10's therapeutic benefits in a wide range of disease states. This certainly suggests that CoQ10 enhances and extends life and improves quality of life. Three rather large clinical studies support the influence of CoQ10 on longevity. The first was a 30-year study that was completed by Dr. Folkers and Judy. In this study 500 congestive heart failure patients were divided into two groups. One group was treated with 200 mg CoQ10 daily and conventional therapy. The other group was treated with conventional therapy only. The conventional therapy group were all deceased in seven years. In the CoQ10 group 42 percent were still living at seven years. At 15 years, 24 percent were still living. At 30 years two individuals were still living. Both were in their late 90's and in good health. Both had been on CoQ10 for over 35 years and were only on a diuretic and CoQ10.

    Other long-term studies have been conducted by Dr. Alihanen and his group in Sweden. In this study thousands of elderly patients were supplemented with CoQ10 for 10 years. The 10- year survival rate was 45 percent. In another study in Class III and IV congestive heart failure conducted by Dr. Sven Mortensen and his group showed a two-year survival compared to the control group of 48 percent. The morbidity was reduced by 52 percent and the classification of heart failure was reduced to Class II or I. The acute hospitalizations were reduced by 52 percent (Q-Symbio multicenter clinical trial 2014. A.J. Clinical Cardiology, 2014.

    Ubiquinone/Ubiquinol: After the discovery of coenzyme Q10 (ubiquinone) in 1956, clinical trials began in the mid-1960s. In the ensuing half-century, the vast majority of clinical trials have been conducted with the ubiquinone, which is the oxidized form of CoQ10.

    In 2006, the Kaneka Corporation in Japan began producing and marketing the ubiquinol (reduced) form of CoQ10 after learning how to stabilize the compound and keep it from oxidizing back to ubiquinone. Kaneka claims that the ubiquinol/ reduced form of CoQ10 is more active and better absorbed than ubiquinone. This has been a very successful marketing strategy for Kaneka, but actually, the claims are not scientifically correct.

    There are several issues to discuss when confronting Kaneka's claims that ubiquinol is superior to ubiquinone. Many companies are private labeling Kaneka's ubiquinol CoQ10, which are substantially more expensive. However, studies reveal that when Kaneka's reduced CoQ10 is taken orally, it rapidly gets converted into ubiquinone in the stomach. Hence, people are paying more for ubiquinol, which actually gets converted back into ubiquinone when taken orally.

    For a full explanation of the issues and controversies between ubiquinone and ubiquinol, read a report titled Coenzyme Q10 Facts or Fabrications by William Judy, Ph.D. Dr. Judy has been educating people around the world about the importance and benefits of coenzyme Q10 for over 40 years. He has also conducted CoQ10 clinical trials and served as a consultant for many companies on CoQ10 product formulations. Hence, he is well qualified to address both the scientific and the marketing issues related to the ubiquinone/ubiquinol controversy.

    The Recrystallization Problem: Many CoQ10 products on the market have abysmally low rates of absorption. Here's the problem. The melting point of CoQ10 is about ten degrees higher than human body temperature, which is 98.60F. Hence, most coenzyme Q10 products crystallize in the softgel capsule after cooling to room temperature. Even CoQ10 products that are dissolved in oil by heating to 50 degrees centigrade recrystallize in the softgel capsule when cooled to room temperature. Crystals consist of many millions of single CoQ10 molecules. Humans can't absorb crystals. We can only absorb single molecules of any substance. This explains why CoQ10 products on the market do not achieve significant increases in plasma CoQ10 levels compared to that of the pure crystal free CoQ10 products.

    Crystal Free Coenzyme Q10:
    Crystal free CoQ10 is the new era in the CoQ10 industry. The dry powder CoQ10 entered the marketplace in 1974 as a comp softgel product. These were crystalline CoQ10 in an oil and water base. When CoQ10 was deregulated from a drug to a natural product in Japan the consumer market in Japan increased so significantly that the CoQ10 producers in Japan could not meet the world demand. The price of CoQ10 increased from $800 to $4500 a kilogram. In the USA almost no one could afford the CoQ10. Thus, the need for a more highly absorbable CoQ10 that could offset the poorly absorbed CoQ10 and its high price.

    Three companies in the USA took the challenge and started developing a crystal free CoQ10 product between 2002 and 2006. All three products had different solvents and were crystal free at an encapsulation temperature of 50 degrees centigrade. Their single dose absorption was between six and eight percent of a 100 mg dose. However, when the capsules cooled to room temperature, two of these products recrystallized and the absorption and steady state bioavailability was no better than a crystalline CoQ10 in a lipid based softgel.

    The higher absorbable CoQ10 and steady state bioavailable allows the consumer to attain the health benefits for the clinical conditions describes in Part I of this series. Two of the developed products were unstable and recrystallized in the softgel capsule. One remained viable as a pure crystal free product.

    A crystal free product at body temperature manufactured in Scandinavia was used in a major long-term clinical trial in Sweden. This trial has continued for over 10 years in thousands of patients (Ailhagen Sweden). In this study, the 10-year survival was 50 percent. In a multi-center study in 500 class III and IV congestive heart failure patients the 250 in patients on CoQ10 and conventional therapy has a heart failure mortality rate 56 percent less than the control group on conventional therapy only. In this study, the morbidity was 48 percent less and the degree of failure was 58 percent less than the control group. The CoQ10 treated patients admitted to the hospital was 43 percent less than the conventionally treated patients (Q-symbio trial, Mortensen. Am J Clinical Cardiology. 2014). The new era of crystal free CoQ10 has proven that it has the potential to be effective in the management of congestive heart failure, age related degenerative diseases such as cancers, chronic fatigue, Parkinson's disease and high blood pressure.

    The newest and most stable of the crystal free products, and the new therapeutic era for CoQ10 in the USA is marketed by the Cyto Health Company. It will soon be in the USA marketplace. For more information please call 941-920-2824.

    References:
    1. Saini R. Coenzyme Q10: The essential nutrient. J Pharm Bioallied Sci. 2011 Jul-Sep;3(3):466-467.
    2. Bliznakov E. (1986) "The Miracle Nutrient: Coenzyme Q10." New York. Bantam Books.
    3. 1995 Merck
    4. 1996 Duke Univ.
    5. 1997 North Carolina Univ
    6. Lockwood K, et al. Partial and complete regression of breast cancer in patients in relation to dosage of coenzyme Q10. Biochem Biophys Res Commun. 1994 Mar 30;199(3):1504–8.
    7. 1996 Judy and Folkers
    8. 1984 Judy and Toth
    9. John AP. Dysfunctional mitochondria, not oxygen insufficiency, cause cancer cells to produce inordinate amounts of lactic acid: the impact of this on the treatment of cancer. Med Hypotheses. 2001;57:429–31
    10. Weigel, H. Plant quality declines as CO2 levels rise. eLife 2014;3:e03233.
    11. Aktar, W, et al. Impact of pesticides use in agriculture: their benefits and hazards. Interdiscip Toxicol. 2009 Mar;2(1):1–12.
    12. Karmas E, Harris RS. (Dec. 2012) Nutritional Evaluation of Food Processing. Springer Science & Business Media
    13. Pelton R, et al. (2001) "The Drug-Induced Nutrient Depletion Handbook." Macedonia, Ohio. Lexi-Comp.
    14. Bliznakov E. (1986) "The Miracle Nutrient: Coenzyme Q10." New York. Bantam Books.
  • It wasn’t so long ago that cocoa and chocolate were considered unhealthy. In fact, back in the late 70s and early 80s carob was being touted as a chocolate substitute—albeit a very sad and far less delicious excuse for a substitute. Since then, study after study has been published extolling the health-promoting properties of cocoa and chocolate. Of course chocolate bars also contain sugars, fats and other dietary components whose intake we’re trying to limit, but the cocoa itself still offers several healthy benefits such as its effects on energy, digestion, cardiovascular health, lung health, antioxidant protection and mood.

    ENERGY
    People have often noticed that they feel more energetic after consuming cocoa or chocolate, and tend to attribute this to the sugar and calories, but there is more to the story. It turns out that cocoa contains a methylxanthine (the family of compounds to which caffeine belongs) known as theobromine (3.7 percent on a fat-free basis).1 This is significant since theobromine tends to have a mild stimulatory effect.2 In fact, a study3 examined the effects of a chocolate bar, an apple or nothing in 37 healthy, normal-weight women who ate these foods and rated their subjective state 5, 30, 60 and 90 min after eating. Both chocolate and the apple reduced hunger, elevated mood and increased activation, but the effects of the chocolate were greater. The increased activity (induced by the stimulating ingredients of cocoa) was statistically significant (p<0.002).3

    DIGESTION
    The friendly bacteria in our gut play a role in the digestion of foodstuffs. Research4 suggests that cocoa has beneficial effects on the metabolism of our friendly bacteria. Furthermore, research5 also shows that compounds in cocoa can actually help promote the growth of friendly bacteria. In addition, a historical review6 of the medicinal uses of chocolate indicated that it was used to improve digestion and elimination, where cocoa/chocolate was said to counter the effects of stagnant or weak stomachs, stimulate kidney and improve bowel function. Not surprisingly, human research has shown that salivation was triggered after tasting a very small amount of chocolate.7 This effect has benefits for digestion since saliva contains the enzyme ptyalin amylase that breaks down starch into sugar. Salivary glands also secrete salivary lipase (a more potent form of lipase) to start fat digestion.

    CARDIOVASCULAR HEALTH
    An 18 week, randomized, controlled, investigator-blinded, parallel study8 examined the effect of 30 mg of polyphenols/ day from dark chocolate or the same amount of white chocolate without polyphenols in 44 adults with untreated prehypertension or stage 1 hypertension. The results were that the group eating the polyphenols from dark chocolate experienced decreased systolic blood pressure by 2.9 points and diastolic blood pressure by 1.9 points. Hypertension prevalence also declined from 86 to 68 percent. Since cocoa powder provides an average of 40.20 mg polyphenols/ gram9, relatively small amounts of cocoa would be needed to offer a similar benefit. Other research10 has also shown that healthy elderly men who consumed a median intake of 2.11 grams cocoa daily had a statistically significant (P=0.03) lower average blood pressure compared to those consuming lower amounts. They also have a lower risk of cardiovascular (P=0.004) and all-cause mortality (P=0.001).

    LUNG HEALTH
    A historical review11 of the medicinal uses of chocolate recounts 17th and 18th century writers’ discussions on the use of chocolate, including statements such as, "...it cures consumption, and the cough of the lungs," and "has an effect equally... to suspend the violent cause of rheumatoids and inflammation of the lungs, and to dull the irritation and ferocity which incites cough [and] to put out the inflammations of the throat and lungs [pleure]," and "[an] easer of pain, it is excellent, taken inwardly, to cure hoarseness, and to blunt the sharpness of the salts that irritate the lungs..." A more recent randomized, double-blind, placebo-controlled, human study12 suggests a mechanism by which chocolate may have offered its beneficial effects. The study indicated that theobromine (the compound found in chocolate as discussed earlier) was found to suppress capsaicin-induced cough with no adverse effects. The study also demonstrated that theobromine directly inhibits a sensory suggestive of an inhibitory effect on afferent nerve activation. The authors concluded that theobromine is a novel and promising treatment that may form the basis for a new class of antitussive drugs.

    ANTIOXIDANT PROTECTION
    Research13 has shown that cocoa has potent antioxidant capacity as compared with other products. This can be quantified by a method of measuring antioxidant capacities of various foods: Oxygen Radical Absorbance Capacity (ORAC). According to the USDA,14 100 grams of unsweetened cocoa powder has a total ORAC value of 55,653. Furthermore, a double-blind, randomized study15 reported that markers of antioxidant status increased after dark chocolate consumption, and a reduction of serum oxidative stress was seen.

    IMMUNE HEALTH
    An interesting study16 reviewed research suggesting a regulatory effect of cocoa on the immune cells implicated in innate and acquired immunity. Cocoa exerts regulatory activity on the secretion of inflammatory mediators. In addition, emerging data from animal studies support an immunomodulating effect. Long-term cocoa intake in rats affects both intestinal and systemic immune function. Other research17 has shown that cocoa extract down-modulated T lymphocyte activation and therefore the acquired immune response, suggesting that it could be important in some states of the immune system hyperactivity such as autoimmune or chronic inflammatory diseases.

    MOOD
    A British journal18 reported on a study examining chocolate craving in people who were depressed. Nearly 3000 clinically depressed individuals completed a web-based questionnaire, the results of which revealed that chocolate was craved by half of the respondents (more so by women), judged as beneficial for depression, anxiety and irritability, and associated specifically with personality facets encompassed by the higher-order construct of neuroticism. Another study19 argued that the food with the greatest impact on mood is chocolate. Those who crave chocolate tend to do so when they feel emotionally low. There have been a series of suggestions that chocolate’s mood-elevating properties reflect ‘drug-like’ constituents including anandamines, caffeine, phenylethylamine and magnesium. However, the levels of these substances are so low as to preclude such influences. As all palatable foods stimulate endorphin release in the brain this is the most likely mechanism to account for the elevation of mood.

    CONCLUSION
    Cocoa offers a range of potential health benefits. Not only that, but it tastes good! The consumption of some cocoa daily may make sense—but try to avoid excessive sugar intake when doing so. The use of sweeteners such as stevia would be a good alternative.

    1. Belščak A, Komes D, Horžić D, et al. Comparative study of commercially available cocoa products in terms of their bioactive composition. Food Research International 2009;42(5-6): 707.16.
    2. Dewick PM. Medicinal Natural Products: A Biosynthetic Approach. 3rd ed. West Sussex, UK: Wiley; 2009:414.
    3. Macht M, Dettmer D. Everyday mood and emotions after eating a chocolate bar or an apple. Appetite 2006;46(3):332.6.
    4. Makivuokko H, Kettunen H, Saarinen M, et al. The effect of cocoa and polydextrose on bacterial fermentation in gastrointestinal tract simulations. Biosci Biotechnol Biochem 2007;71(8):1834.43.
    5. Tzounis X, Rodriguez-Mateos A, Vulevic J, Gibson GR, Kwik-Uribe C, Spencer JP. Prebiotic evaluation of cocoa-derived flavanols in healthy humans by using a randomized, controlled, double-blind, crossover intervention study. Am J Clin Nutr. 2011 Jan;93(1):62.72.
    6. Dillinger TL, Barriga P, Escarcega S, Jimenez M, Salazar Lowe D, Grivetti LE. Food of the gods: cure for humanity? A cultural history of the medicinal and ritual use of chocolate. J Nutr2000;130(8S Suppl):2057S.72S.
    7. Lappalainen R, Sjödén PO, Karhunen L, Gladh V, Lesinska D. Inhibition of anticipatory salivation and craving in response to food stimuli. Physiol Behav 1994;56(2):393.8.
    8. Taubert D, Roesen R, Lehmann C, et al. Effects of low habitual cocoa intake on blood pressure and bioactive nitric oxide: a randomized controlled trial. JAMA2007;298:49.60.
    9. Natsume M, Osakabe N, Yamagishi M, et al. Analysises of Polypehones in Cacao Liquor, Cocoa, and Chocolate by Normal-Phase and Reversed-Phase HPLC. Biosci Botechnol Biochem2000;64(12):2581.7.
    10. Buijsse B, Feskens EJ, Kok FJ, Kromhout D. Cocoa intake, blood pressure, and cardiovascular mortality: the Zutphen Elderly Study. Arch Intern Med 2006;166:411.7.
    11. Dillinger
    12. Usmani OS, Belvisi MG, Patel HJ, et al. Theobromine inhibits sensory nerve activation and cough. FASEB J 2005;19(2):231-3.
    13. Ramiro-Puig E, Castell M. Cocoa: antioxidant and immunomodulator. Br J Nutr 2009;101(7):931. 40.
    14. U.S. Department of Agriculture, Agricultural Research Service. USDA Database for the Oxygen Radical Absorbance Capacity (ORAC) of Selected Foods, Release 2. Beltsville, MD: Beltsville Human Nutrition Research Center; May 2010:39.
    15. Flammer AJ, Hermann F, Sudano I, et al. Dark chocolate improves coronary vasomotion and reduces platelet reactivity. Circulation 2007;116(21):2376.82.
    16. Ramiro-Puig
    17. Ramiro E, Franch A, Castellote A, et al. Effect of Theobroma cacao flavonoids on immune activation of a lymphoid cell line. British Journal of Nutrition 2005; 93:859.66.
    18. Parker G, Crawford J. Chocolate craving when depressed: a personality marker. Br J Psychiatry 2007;191:351.2.
    19. Benton D, Donohoe RT. The effects of nutrients on mood. Public Health Nutrition: 2(3a), 403.9.
  • Green tea has been consumed for more than three thousand years for both its refreshing and health promoting benefits. In fact, a historical perspective1 on green and black tea reported that they are among the most widely consumed beverages in the world, second only to water. Dogma has it that, for 4,000 years people knew tea might have health-promoting properties since it was frequently used as fluid supply for patients suffering from infectious diseases. This article will review a number of green tea's many benefits to human health, including its antioxidant and anti-inflammatory properties, its anti-cancer activity, and its ability to promote both cardiovascular health and weight loss. Before jumping into its benefits, however, let's first take a look at the difference between green, black and oolong tea.

    Green, black and oolong tea
    Green, black and oolong tea all come from the same species, Camellia sinensis. Green tea, however, is different than black and oolong teas because it is not fermented. Black tea is fully fermented and oolong tea is partially fermented, whereas green tea is produced by steaming fresh leaves. The steaming doesn't decrease polyphenols in green tea, such as flavanols, flavandiols, flavonoids, and phenolic acids, which are abundant. One group of flavanols are known as catechins. These include epigallocatechin gallate (EGCG), epigallocatechin (EGC), epicatechin gallate (ECG), and epicatechin (EC), which are responsible for many of green tea's benefits. Growing conditions, leaf age, and storage during and after transport affect the amount of polyphenols and catechins in green tea. For example, green tea catechins can range from 69 to 103 mg/gram of tea,2,3 although green tea extracts may provide significantly higher amounts.

    Antioxidant properties
    Green tea has significant antioxidant properties.4 Laboratory research5 found that green tea slowed down the oxidation of LDL cholesterol ('bad cholesterol'), which is associated with atherosclerosis, or the build-up of plaque on arterial walls. A cup of green tea contains 50 to 100 mg of polyphenols (approximately 6,300 to 12,600 times higher than the dose used in the laboratory study). Therefore, one cup of green tea a day may provide a therapeutic dose of antioxidant polyphenols, and green tea extracts with higher polyphenol content likely provide even greater antioxidant activity. In fact, in human research,6 the consumption of green tea extract (high in polyphenols) led to a greater increase in plasma antioxidant activity than when given as a standard tea. This makes sense when considering that the antioxidant score (aka, ORAC score) for a cup of brewed green tea is 1253 ORAC units,7 while one gram of green tea extract has 3,996 ORAC units.8 Depending upon the actual extract, some green tea products may even have a higher ORAC value.

    Anti-inflammatory activity
    Catechins in green tea have anti-inflammatory activity. This includes a reduction in the following inflammatory markers: leukotriene-B4, 5-lipoxygenase,9 COX-2 and nitric oxide synthase.10 In addition, EGCG and other catechins in green tea might reduce inflammation and protect cartilage by inhibiting proteoglycan and collagen breakdown,11 which may have positive implications for joints as seen in laboratory models of rheumatoid arthritis.12 Other examples of green tea's anti-inflammatory effect include a reduction gum (gingival) inflammation,13 protection against sunburn inflammation,14 and a reduction in a marker of chronic inflammation as a cardiovascular risk factor.15

    Anti-cancer activity
    Research suggests that green tea may protect against some kinds of cancer. Tea polyphenols have antimutagenic effects and protect DNA,16 reduce oxidative DNA damage, lipid peroxidation, and free radical generation.17 In animal or laboratory research green tea catechins prevented new blood vessel growth (angiogenesis) in tumors and inhibited tumor cell proliferation resulting cell death (apoptosis).18,19,20,21,22,23 In human research, green tea was shown to reduce mutagenic activity in smokers.24

    Cardiovascular health
    A population based study25 of 40,530 healthy adults aged 40 to 79 years found that the consumption of three or more cups of green tea daily for 11 years significantly decreases the risk of cardiovascular and all-cause mortality compared to drinking less than one cup daily, and this association was primarily related to a decrease in risk for stroke (cerebral infarction). In another population study of 1371 men, aged 40 years or older, increased daily consumption of green tea resulted in significantly decreased serum levels of total cholesterol, LDL cholesterol (‘bad cholesterol'), and triglycerides, while increasing HDL cholesterol (‘good cholesterol'). Moreover, there was a decrease in other serum markers of liver disease, especially when more than 10 cups of green tea daily was consumed.

    Weight loss properties
    A population study26 of 1,210 adults examined the relationship between habitual tea consumption (mostly green and oolong tea) and changes in total body fat and fat distribution in humans. Results were that habitual tea drinkers for more than 10 years showed a 19.6 percent reduction in body fat percentage and a 2.1 percent reduction in waist-to-hip ratio compared with nonhabitual tea drinkers. Other research27 has shown that higher intakes of polyphenols (favonols/flavones, catechins) from tea and other sources were associated with a significantly lower increase in BMI (body mass index), a measure of healthy body weight. Furthermore, other research has shown that green tea extract stimulates thermogenesis (i.e. fat burning)28 and helped obese individuals lose weight.29

    Conclusion
    Green tea has many health benefits to offer, and it is a worthwhile endeavor to include it as part of your daily routine. Drinking a few cups of green tea each day or, better yet, using a green tea extract high in polyphenols will provide you with antioxidant protection while providing a plethora of other benefits.

    References

    1. Weisburger JH. Tea and health: a historical perspective. Cancer Lett 1997;114(1–2):315–7.
    2. Khokhar S, Magnusdottir SG. Total phenol, catechin, and caffeine contents of teas commonly consumed in the United kingdom. J Agric Food Chem 2002;50:565–70.
    3. Henning M, Fajardo-Lira C, Lee HW, et al. Catechin content of 18 teas and a green tea extract supplement correlates with the antioxidant capacity. Nutr Cancer 2003;45:226–35.
    4. Vertuani S, Bosco E, Braccioli E, Manfredini S. Water soluble antioxidant capacity of different teas—determination by photochemiluminescence. Nutrafoods. 2004;3(2):5–11.
    5. Luo M, Wahlqvist M, and O’Brien R. Inhibition of LDL oxidation by green tea extract. Lancet. 1997 Feb 1;349(9048):360–1.
    6. Henning SM, Niu Y, Lee NH, et al. Bioavailability and antioxidant activity of tea flavanols after consumption of green tea, black tea, or a green tea extract supplement. Am J Clin Nutr 2004;80(6):1558–64.
    7. U.S. Department of Agriculture, Agricultural Research Service. 2010. Oxygen Radical Absorbance Capacity (ORAC) of Selected Foods, Release 2: pg. 36.
    8. Brunswick Laboratories. Database for ORAC 5.0 and Cellular Antioxidant Assay (CAA): Green Tea Extract. Retrieved February 12, 2016 from http://www.brunswicklabs.com/tech-library/oracdatabase/green-tea-extract.
    9. Choi JH, Chai YM, Joo GJ, et al. Effects of green tea catechin on polymorphonuclear leukocyte 5’-lipoxygenase activity, leukotriene B4 synthesis, and renal damage in diabetic rats. Ann Nutr Metab 2004;48:151–5.
    10. Ahmed S, Rahman A, Hasnain A, et al. Green tea polyphenol epigallocatechin-3-gallate inhibits the IL-1 beta-induced activity and expression of cyclooxygenase-2 and nitric oxide synthase-2 in human chondrocytes. Free Radic Biol Med 2002;33:1097–105.
    11. Adcocks C, Collin P, Buttle DJ. Catechins from green tea (Camellia sinensis) inhibit bovine and human cartilage proteoglycan and type II collagen degradation in vitro. J Nutr 2002;132:341–6.
    12. Haqqi TM, Anthony DD, Gupta S, et al. Prevention of collageninduced arthritis in mice by a polyphenolic fraction from green tea. Proc Natl Acad Sci U S A 1999;96:4524–9.
    13. Krahwinkel T, Willershausen B. The effect of sugar-free green tea chew candies on the degree of inflammation of the gingiva. Eur J Med Res 2000;5:463–7.
    14. Rhodes LE, Darby G, Massey KA, Clarke KA, Dew TP, Farrar MD, Bennett S, Watson RE, Williamson G, Nicolaou A. Oral green tea catechin metabolites are incorporated into human skin and protect against UV radiation-induced cutaneous inflammation in association with reduced production of pro-inflammatory eicosanoid 12-hydroxyeicosatetraenoic acid. Br J Nutr. 2013 Sep 14;110(5):891–900.
    15. Nantz MP, Rowe CA, Bukowski JF, Percival SS. Standardized capsule of Camellia sinensis lowers cardiovascular risk factors in a randomized, double-blind, placebo-controlled study. Nutrition. 2009 Feb;25(2):147–54.
    16. Gupta S, Saha B, Giri AK. Comparative antimutagenic and anticlastogenic effects of green tea and black tea: a review. Mutat Res 2002;512:37–65.
    17. Klauni g JE, Xu Y, Han C, et al. The effect of tea consumption on oxidative stress in smokers and nonsmokers. Proc Soc Exp Biol Med 1999;220:249–54.
    18. Garbisa S, Biggin S, Cavallarin N, et al. Tumor invasion: molecular shears blunted by green tea. Nat Med 1999;5:1216.
    19. Cao Y, Cao R. Angiogenesis inhibited by drinking tea. Nature 1999;398:381.
    20. L’Allemain G. [Multiple actions of EGCG, the main component of green tea]. Bull Cancer 1999;86:721–4.
    21. Pisters KM, Newman RA, Coldman B, et al. Phase I trial of oral green tea extract in adult patients with solid tumors. J Clin Oncol 2001;19:1830–8.
    22. Kemberling JK, Hampton JA, Keck RW, et al. Inhibition of bladder tumor growth by the green tea derivative epigallocatechin-3-gallate. J Urol 2003;170:773–6.
    23. Chung LY, Cheung TC, Kong SK, et al. Induction of apoptosis by green tea catechins in human prostate cancer DU145 cells. Life Sci 2001;68:1207–14.
    24. Lee IP, Kim YH, Kang MH, et al. Chemopreventive effect of green tea (Camellia sinensis) against cigarette smoke induced mutations in humans. J Cell Biochem Suppl 1997;27:68–75.
    25. Kuriyama S, Shimazu T, Ohmori K, et al. Green tea consumption and mortality due to cardiovascular disease, cancer, and all-cause mortality. JAMA 2006;296:1255–65.
    26. Wu CH, Lu FH, Chang CS, Chang TC, Wang RH, Chang CJ. Relationship among habitual tea consumption, percent body fat, and body fat distribution. Obes Res. 2003 Sep;11(9):1088–95.
    27. Hughes LA, Arts IC, Ambergen T, Brants HA, Dagnelie PC, Goldbohm RA, van den Brandt PA, Weijenberg MP; Netherlands Cohort Study. Higher dietary flavone, flavonol, and catechin intakes are associated with less of an increase in BMI over time in women: a longitudinal analysis from the Netherlands Cohort Study. Am J Clin Nutr. 2008 Nov;88(5):1341–52.
    28. Dulloo AG, Duret C; Rohrer D, et al. Efficacy of a green tea extract rich in catechin polyphenols and caffeine in increasing 24 h energy expenditure and fat oxidation in humans. Am J Clin Nutr 1999; 70(6):1040–5.
    29. Auvichayapat P, Prapochanung M, Tunkamnerdthai O, et al. Effectiveness of green tea on weight reduction in obese Thais: A randomized, controlled trial. Physiol Behav 2008;93(3):486–91.
  • The term “Superfood” was first used in the 1990s when a cookbook that was co-written by Dr. Michael Van Straten, a practitioner of alternative medicine, appeared in the bookshops. It was titled Superfoods and it claimed to provide the reader with information regarding various nutrients to help the body improve resistance against diseases and stress. Since that time, “superfoods” is primarily associated with fruits, vegetables and any other food products that are considered to be healthy for the body.

    As time progressed, however, nutritious Mother Nature made foods that once held the superfood distinction, were overthrown by exotic foods, as if they were the only ones now worthy of the superfoods monarchy. In fact, the superfoods term has been used so frequently by food and product promoters over the past decade, the public now believes that these exotic foods have near-magical qualities to compensate for their high prices.

    Whenever a scientific study provides evidence regarding a positive effect of some chemical property or properties found in a so-called superfood, that superfoods promotional influence is instantly boosted and more companies can jump on the superfood bandwagon.

    This is yet another reason why food promoters are constantly searching for yet undiscovered sources of remarkable nutrients. The public is continuously bombarded with new food products that allegedly can provide all sorts of healthy benefits to the body single-handedly. Over the years, the term “superfood” has retained its appeal to the public but it is now used mainly to create hype about a product to make it more marketable. With all the marketing gimmicks aside, what really constitutes a superfood?

    Up until now, there is no scientifically accepted definition of “superfood.” As mentioned, the term is generally used to refer to foods that are jam-packed with nutrients and can provide health benefits to your body1 Contrary to the marketing claims, there is no food product—no matter how exotic—that can single-handedly provide all of your health needs. Limiting yourself to eating these so-called superfoods can actually result in an impaired, one-sided diet that can do you more harm than good.

    Vitamins and minerals usually work in synergy and thereby need to work with one another in order to be able to provide what the body needs. This is a fact that is usually overlooked by people in their desire to get a one-way ticket to good health. Superfoods also work in synergy, and therefore—in more cases than not—it is wise to consume them as a package, or the whole food.

    Food scientists can easily isolate one or two components of a superfood, and even though those components might look good based on a study or two, nature doesn’t work in isolation. This is why you don’t find a single isolated tocopherol (an isomer of vitamin E) in a food like almonds, but instead an array of mixed tocopherols, all of which work in synergy. Research has even shown that when we consume only one form of vitamin E (alpha tocopherol), it is at the detriment of the other forms, which potentially harms the body.2

    Berry, Berry Good
    The members of the berry kingdom are great examples of superfoods. These edible, fleshy and colorful fruits are full of antioxidants that can actually help in reversing and preventing diseases that are associated with free radicals.3 Free radicals are unstable molecules that react with various body chemicals, causing irreversible damage to our cells.4 As a person grows older, the damage caused by free radicals often worsens, which may speed up the process of aging and contribute to age-related health concerns. Antioxidants can help prevent premature aging by quenching the destructive action of free radicals.5 Berries, especially those with dark color, have one of the highest concentrations of antioxidants—flavonoids and anthocyanidins—found in nature.6

    Anthocyanidins play an important role in memory function and can help decrease the rate of a person’s mental decline. Actually, a study was able to show that age-related cognitive decline reduced by about 1.5 to 2.5 years just by eating berries at least once a week.7 In addition, the same antioxidant can also fight the development of macular degeneration, an eye disorder usually brought about by old age.8

    The risk of cancer and heart diseases, on the other hand, can be reduced by various flavonoids, especially quercetin.9 The immune system already has its own troop of cancer-fighting cells, but a study has shown that quercetin can greatly increase the number of anti-cancer cells in the body.10 It also can regulate cholesterol and blood pressure levels, which are two primary factors for heart disease.11

    Vitamin K
    However, berries are not the only sources of nutrients that can fight heart disease. Green leafy vegetables are a great source of Vitamin K, which can also decrease the risk of cardiovascular diseases. Unbeknownst to many, vitamin K works hand in hand with Vitamin D. Osteocalcin, a protein hormone present in Vitamin K, binds Vitamin D into your bones thus promoting bone health and prevents it from being deposited in your blood vessels.12 Thus, protecting your blood vessels from being clogged and decreasing the risk of heart disease.

    Nature is full of colors. More than just aesthetics, the different colors of natural products can actually give you a clue to the nutrient levels in them. Although some fruits or vegetables may have more nutrients than others, this does not mean that they are the only ones that provide the nutrients that you need. The next time that you eat, make sure that you have a colorful plate in front of you. This is your true and surefire ticket to good health.

    References

    1. MedicineNet. (n.d.). Definition of Superfoods. Retrieved from http://www.medicinenet.com/script/main/art.asp?articlekey=125459.
    2. Chen H, et al. Mixed tocopherol preparation is superior to alpha-tocopherol alone against hypoxia-reoxygenation injury. Biochem Biophys Res Commun. 2002 Feb 22;291(2):349-53.
    3. Paredes-López O, et al. Berries: improving human health and healthy aging, and promoting quality life. Plant Foods Hum Nutr. 2010 Sep;65(3):299–308. doi: 10.1007/s11130-010-0177-1.
    4. WebMD. (n.d.). Free Radicals. Retrieved from http://www.webmd.com/hw-popup/free-radicals.
    5. WebMD. (n.d.) Antioxidants – Topic Overview. Retrieved from http://www.webmd.com/food-recipes/antioxidants-topic-overview.
    6. Stibich, Mark. (2014, May 1). Anti-Aging Properties of Berries. Retrieved from http://longevity.about.com/od/lifelongnutrition/qt/berries_aging.htm.
    7. Park, Alice. (2012, April 26). Brain Food: Berries Can Slow Cognitive Decline. Time
    8. Wang JJ, et al. Genetic susceptibility, dietary antioxidants, and long-term incidence of age-related macular degeneration in two populations. Ophthalmology. 2014 Mar;121(3):667–75.
    9. Knekt P, et al. Flavonoid intake and risk of chronic disease. Am J Clin Nutr. 2002 Sep;76(3):560–8.
    10. Brito AF, et al. Quercetin in cancer treatment, alone or in combination with conventional therapeutics? Curr Med Chem. 2015 Aug 12.
    11. Dower JI, et al. Effects of the pure flavonoids epicatechin and quercetin on vascular function and cardiometabolic health: a randomized, double-blind, placebo-controlled, crossover trial. Am J Clin Nutr. 2015 May;101(5):914-21. doi: 10.3945/ajcn.114.098590. Epub 2015 Feb 25.
    12. Mercola. Without Vitamin K2, Vitamin D May Actually Encourage Heart Disease. (2011, July 16) Retrieved from http://articles.mercola.com/sites/articles/archive/2011/07/16/fatsoluble-vitamin-shown-to-reduce-coronary-calcification.aspx.