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Search Term: " Inegraive "
Exploring the fatty acids that REDUCE your risk of premature death   
Date:
April 27, 2019 09:55 AM
According to six separate studies published in the Asia Pacific Journal of Clinical Nutrition, the regular consumption of fatty acids substantially decreases the risk of premature death in adults. When the fatty acids are derived specifically from fish oil, the risk of death from any cause is reduced by 14 percent, compared to low or no consumption. Specifically, the risk of dying from a cardiac event is reduced by a whopping 47 percent. Unfortunately, because these studies don't appear in medical journals, most doctors do not advise their patients to take fish oil. There is also evidence that suggests fish oil decreases the risk of stroke and has potent anti-inflammatory properties. A word of caution, if you are on blood-thinners, consult with an integrative physician before taking fish oils regularly. Key Takeaways:
"In one study, fish oil was associated with better survival rates in heart attack victims, with researchers finding improved heart function and lower levels of inflammatory markers in people who took high-dose fish oil for six months after suffering a heart attack." Read more: https://www.naturalhealth365.com/fatty-acids-nutrition-news-2790.html
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=6203) The Arjun tree holds potential for lowering blood sugar andcholesterol levels 
Date:
January 08, 2019 09:58 AM
According to the Journal of Ayurveda and Integrative Medicine, Arjun Tree extract may have benefits for moderating your blood sugar and also your cholesterol levels. Diabetics are at dramatically higher risk of dying from heart conditions, perhaps because hyperglycemia tends to raise blood pressure and damage the circulatory system. The study in question focused on Wistar rats that received a high-fat diet, and found that Arjun Tree extract improved insulin sensitivity and liver triglycerides, and exhibited a pronounced anti inflammatory effect. Key Takeaways:
"In this study, which was published in the Journal of Ayurveda and Integrative Medicine, the researchers were able to determine that Arjun tree extracts exhibit anti-hyperglycemic and anti-hyperlipidemic activity." Read more: https://www.naturalnews.com/2018-12-24-arjun-tree-lowers-blood-sugar-and-cholesterol-levels.html
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=5942) D-Ribose Powder Benefits!
Date:
April 10, 2007 11:57 AM
Supports normal heart function*
A significant amount of in vitro, animal and human research suggests benefits of ribose on heart function.* Studies have shown that ribose supplementation can enhance cardiac energy levels and support cardiovascular metabolism.* Ribose has been shown in clinical trials to enhance the recovery of heart muscle ATP levels and improve myocardial function following exercise.
Studies suggest that ribose supplementation can increase the tolerability of the cardiovascular system to exercise-induced fatigue.1 In one study, twenty men underwent treadmill exercise tests on two consecutive days to confirm the onset of fatigue secondary to exercise. The participants were then randomized to the treatment group or a placebo group. The groups received either four doses of 15 grams of D-ribose (60 grams/day total) or the same amount of placebo each day. After three days of treatment, another treadmill test was performed. The time it took to reach the specified level of fatigue was significantly greater in the ribose group than in the placebo group.
Another study investigated the ability of ribose to support healthy heart function and quality of life.2 In a randomized, crossover design study, fifteen individuals were given 5 grams three times a day of either D-ribose or placebo. Each treatment period lasted three weeks. In patients receiving ribose, echocardiography demonstrated enhancement of heart function, reflecting a “more efficient relaxation phase of the heart”. Participants also had a significant improvement in their subjective quality of life scores compared to placebo.
Scientists suggest that suboptimal heart function is a result of the heart requiring more energy to function properly. Ribose supports the heart’s enhanced energy requirements, promoting optimal heart function. It does so by enhancing the stores of high-energy phosphates in heart tissue. These intermediates are necessary for the production and resynthesis of ATP. A double-blind crossover study in which 12 individuals were randomized to receive either ribose or dextrose (both administered as 5 grams three times daily for three weeks, followed by a 1-week washout period and crossover of treatments for three additional weeks) suggested significant enhancements in normal cardiac function during the period of ribose supplementation.3
Perhaps one of the more useful illustrations of the potential for ribose to support heart function comes from a study in which 20 rats received a continuous infusion of ribose for 24 hours (control rats received an infusion of saline). The hearts were then explanted (as they would be for heart transplants) and placed in preservation solution that was enriched with ribose for 4 hours. ATP levels were measured from tissue biopsies and revealed that 10 of the ribose-treated hearts had ATP levels higher than 12.3 micromoles per gram whereas saline-treated hearts (controls) had lower ATP levels, with 20% showing levels below 10 micromoles per gram of tissue. This provides support for the hypothesis that ribose may enhance the preservation of ATP levels in cardiac tissue, promoting normal heart function.4
Further animal studies have shown that ribose significantly enhances heart function after experimentally induced cardiac depression. Rats were injected with isoproterenol (a drug that stimulates sympathetic nervous system function) and had their abdominal aorta constricted to induce depression of heart function and reduce cardiac ATP levels. The decrease in ATP was primarily responsible for the depression of heart function. Continuous infusion of ribose for 24 hours replenished ATP concentrations to normal levels and normalized heart function in these animals.5
Ribose may strengthen and support the body’s crucial antioxidant defenses*
Ribose may support the body’s innate antioxidant mechanisms while promoting an antioxidant effect of its own. Intense exercise and other strenuous activity can induce the production of free radicals. Preliminary studies suggest that ribose can attenuate some of the effects of oxidation seen after performance of intensive exercise.
One small human study indicated that ribose administered at a dose of seven grams before and after a bout of cycling exercise may reduce free radical production.6 Seven volunteers ingested either ribose or placebo both before and after intense exercise. Markers of lipid peroxidation, including malondialdehyde, significantly decreased in the ribose-supplemented group, while increasing in the control group. The results of this study indicate a possible effect of ribose in supporting antioxidant activity.
Supports healthy energy levels in heart and muscle tissue*
After bouts of intense exercise, ATP levels have been shown to decrease by an average of 15 to 20%.7 The amount of ATP stored in the muscle is limited and so the body must have the potential to rebuild ATP stores. ATP is the fuel necessary for the integrity and function of a cell. In addition, several studies have found correlations between ATP content and heart function.1 Research that was also alluded to above suggests that ribose stimulates ATP synthesis and supports heart and muscle function by enhancing ATP levels in cardiac and muscle tissue. D-ribose is an essential building block for the synthesis of ATP through the pentose phosphate pathway.
The results of ribose supplementation enhancing ATP levels in muscle are evidenced by studies suggesting beneficial effects on anaerobic performance. In a randomized, placebo-controlled crossover study assessing the effects of acute ribose supplementation, participants receiving the ribose supplement had increases in mean power (a measure of average overall muscular strength output during the sprint) and peak power (a measure of the highest muscular strength output during the sprint) when undergoing a series of cycle sprints.8 While this effect was not noted in all of the six short cycling sprints that the participants underwent, the study does illustrate the potential benefits of ribose on ATP production and, secondarily, on enhancing exercise performance.
A second placebo-controlled trial investigated the effects of four weeks of ribose-supplementation (10 grams /day) on male bodybuilders. Of the 20 participants who were recruited, twelve completed the study. Each subject participated in a heavy-resistance training program designed to increase skeletal muscle mass. The effects of ribose on body composition (body weight, body fat, lean body mass, fat mass, and bone mineral content) were also assessed. The results suggested that ribose increased total work capacity and bench press strength compared to placebo, without altering body composition.9
Supports energy recovery after exercise*
Animal studies have suggested that the administration of ribose after exercise increases the rate of adenine salvage by five to seven-fold in muscle tissue7, supporting energy recovery after exercise. When ATP is utilized by muscle tissue, the degradation products include adenine nucleotides (Adenine is one of two purine bases that is a component of DNA). Adenine is recycled to synthesize DNA, and the salvage of adenine within the muscle tissue is crucial to energy recovery. Studies have shown that the presence of adequate ribose concentrations is the rate-limiting step in the purine salvage pathway. Therefore, increased adenine salvage could potentially help in the recovery and regeneration of ATP after intense bouts of activity.
A study investigated the effect of oral intake of ribose on the synthesis of AMP, a precursor to ATP.10 Participants performed intense cycle training for seven days. They then received either ribose (at a concentration of 200 mg/kg body weight, which is equivalent to 14 grams per day for an average 70 kilogram male) or placebo three times a day for the following three days. Exercise tests were performed again on day 4. Muscle biopsy samples were taken before the first training session, immediately after, and again five hours, 24 hours, and 72 hours after the last training session. No differences were seen in exercise performance between the groups. The intense exercise caused the ATP levels in muscle to decrease in both groups. However, at 72 hours post-exercise, the ribose group exhibited a much higher ATP level than the placebo group. The muscle levels of critical building blocks for ATP, including total adenine nucleotides (TAN) and inosine 5’-monophosphate (IMP), were also significantly higher in the ribose group compared to the placebo group at 24 hours after exercise. Ribose-supplementation was shown to enhance the resynthesis of ATP after intense exercise.
*This statement has not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure or prevent any disease.
Safety
Caution: Insulin-dependent diabetics and pregnant women should consult their physician before use.
Suggested Adult Use: Take 1 or 2 scoops mixed in water, juice or other beverage two times per day. May be taken with or without food.
Scientific References
1) Pliml, W., von Arnim, T., Stablein, A., Hofmann, H., Zimmer, H., Erdmann, E. Effects of ribose on exercise-induced ischaemia in stable coronary artery disease. The Lancet. 1992;340:507-510.
2) Omran, H., Illien, S., MacCarter, D., St. Cyr, J.A., Luderitz, B. D-Ribose improves diastolic function and quality of life in congestive heart failure patients: a prospective feasibility study. The European Journal of Heart Failure. 2003;5:615-619.
3) Illien, S., Omran, H., MacCarter, D., St. Cyr, J.A. Ribose improves myocardial function in congestive heart failure. FASEB Journal 2001;15(5): A1142
4) Muller C., Zimmer H., Gross M., Gresser U., Brotsack I., Wehling M., Pliml W. Effect of ribose on cardiac adenine nucleotides in a donor model for heart transplantation. Eur J Med Res. 1998 Dec 16;3(12):554-8.
5) Zimmer H.G. Normalization of depressed heart function in rats by ribose. Science. 1983 Apr 1;220(4592):81-2.
6) Seifert, J.G., Subudhi, A., Fu, M., Riska, J.J. The effects of ribose ingestion on indices of free radical production during hypoxic exercise. Free Rad Biol Med 2002; 33(Suppl 1) S269.
7) Zarzeczny, R., Brault, J.J., Abraham, K.A., Hancock, C.R., Terjung, R. Influence of ribose on adenine salvage after intense muscle contractions. J Applied Physiology. 2001;91:1775-1781.
8) Berardi J.M., Ziegenfuss T.N. Effects of ribose supplementation on repeated sprint performance in men. J Strength Cond Res. 2003 Feb;17(1):47-52.
9) Van Gammeren, D.V., Falk, D., Antonio, J. The effects of four weeks of ribose supplementation on body composition and exercise performance in healthy, young, male recreational bodybuilders: a double-blind, placebo-controlled trial. Current Ther Research. 2002;63(8):486-495.
10) Hellsten, Y., Skadhauge, L., Bangsbo, J. Effect of ribose supplementation on resynthesis of adenine nucleotides after intense intermittent training in humans. American Journal of Physiology – Regulatory, Integrative and Comparative Physiology. 2004;286:R182-R188.
-- Buy Ribose at Vitanet at a Discount
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1510) Betaine HCI and Pepsin
Date:
January 28, 2007 08:41 PM
Betaine HCI and Pepsin Betaine HCl is a form of HCl used as a nutrient to supplement the stomach’s own production of HCl, or stomach acid. While occasional indigestion may be a result of acid irritating tissue in the structure above the stomach known as the esophagus, a line of research suggests that the cause of this irritation may actually be less than optimal stomach acid production. Stomach acid is normally produced by the parietal cells of the stomach and the function of stomach acid is to break down food that enters the stomach into smaller fragments and nutrient components. These components move through the stomach into the small intestine where they are further broken down by digestive enzymes in the upper part of the small intestine. The individual nutrients that result from the digestion of proteins, fats and carbohydrates can then be absorbed and assimilated by the body and used for metabolism and growth. However, optimal stomach acid production is certainly a major step for the efficiency of the digestive process. Less than ideal stomach acid production prevents foods from being broken down properly and places an added burden on the remainder of the digestive process, including enzyme production from the pancreas. As mentioned earlier, the presence of optimal stomach acid is necessary for the digestion and absorption of critical nutrients. Amino acids and other peptides from proteins, minerals, vitamin B12 and folic acid are examples of nutrients that require proper levels of stomach acid for their absorption and usage. The presence of adequate acid in the stomach is also required for the conversion of the digestive enzyme pepsin. Pepsin is produced in the stomach from its precursor pepsinogen, which is secreted by cells known as chief cells, and functions to help with the digestion of proteins. Pepsin breaks proteins down into their amino acid components. Since stomach acid is essential to the process of absorbing our nutrients from food, lack of sufficient acid production may lead to decreased health and general well-being. Ideal stomach acid production is also essential for maintaining a healthy bacterial balance in the intestines. Firstly, acid production in the stomach itself provides a protective barrier that keeps the stomach environment safe. Secondarily, low levels of stomach acid can lead to improperly, incompletely, or poorly-digested food fragments that may cause an imbalance in the growth of normal bacterial flora in the intestines. Achieving the correct balance of flora is a key to maintaining proper digestive function and overall health. Research also suggests that the body’s capacity to produce stomach acid normally declines as we age. Moreover, stress and other factors may impact proper stomach acid production. Occasional heartburn, bloating, belching, discomfort, and a "sour stomach" may often result from this. Food that we eat enters the stomach through the esophagus, or food pipe. At the junction of the esophagus with the stomach is a muscular structure known as the lower esophageal sphincter (LES). When food enters the stomach for digestion, the LES normally contracts, narrowing the passageway between the esophagus and the stomach and preventing the backflow of stomach contents into the esophagus. A major trigger for the process of tightening the sphincter is the presence of sufficient stomach acid. When sufficient stomach acid is sensed, the LES will close. However, in conditions where there is a lack of stomach acid, the sphincter remains open, allowing stomach contents, including acid, to flow back through the opening, potentially creating a sense of irritation and discomfort. Adequate stomach acid production is an essential criterion for the sphincter to function properly and prevent the backflow of stomach contents.1 A recent study assessed the incidence and causes of low vitamin B12 levels in elderly patients. The researchers suggest that the incidence of decreased vitamin B12 in the elderly, based on results of some epidemiological studies, is as high as 30-40%. When they looked at the possible causes of low B12 levels in 200 individuals that they followed, they found that food-B12 malabsorption accounted for 60-70% of the cases.2 In other words dietary B12 is bound to foods, generally animal proteins. The protein is normally broken down in conjunction with acid and pepsin in the stomach. However, low production of stomach acid may decrease the efficiency of this process and vitamin B12 remains bound to the protein source, leaving it unavailable to be absorbed. The absorption of countless other nutrients may also be impacted by low stomach acid and pepsin levels. Gentian Root Gentian is an herb that is native to parts of Europe and Asia. The root has been used extensively by traditional herbalists to support digestive function due in large part to its bitter constituents. Its present day use as a therapeutic herb dates back to the Romans and Greeks, and related species have even been used in the Indian Ayurvedic system. Various traditional texts classify gentian as a bitter tonic and digestive stimulant, due to its ability to promote the secretion of digestive enzymes. The German Commission E has approved the use of gentian for digestive support, which leads to an increased secretion of saliva and digestive juices.3 Supplementation with the combination of nutrients and cofactors present in Betaine HCl Pepsin & Gentian supports the normal digestive function of the stomach and helps to ensure that the body maintains the efficiency of nutrient absorption from the foods that we eat. Gentian serves to stimulate digestive secretions in the stomach, priming it to digest the food that we eat, while supplemental Betaine HCl and pepsin provide support to the body’s innate production of these digestive factors. Safety Take 1 capsule with each meal, or as recommended by a healthcare professional. Scientific References 1. Wright, Jonathan V., MD and Lane Lenard, PhD. Why Stomach Acid is Good For You. New York: Evans, 2001. 2. Andres E, et al. Vitamin B12 (cobalamin) deficiency in elderly patients. CMAJ 2004; 171(3): 251-259. 3. Blumenthal M, Goldberg A and J Brinckmann, eds. Herbal Medicine: Expanded Commission E Monographs. Newton, MA: Integrative Medicine Communications, 2000.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1447) Night Health: A new approach to improving sleep.
Date:
May 12, 2006 05:41 PM
Our night health, including the quality of our sleep and dreams, may be the most critical overlooked factor contributing to both emotional and physical illness in modern times. For millions, night is a time of growing frustration and deepening struggle with insomnia as well as compromised and insufficient sleep. Mounting data has confirmed that sleep problems are strongly associated with virtually all major illnesses ranging from cardiovascular disease to diabetes, infections and cancer, and obesity to depression. Night health refers to a new approach to sleep and dreams that integrates complementary and alternative medicine with effective conventional perspectives. It is essentially a comprehensive body-mind approach to sleep. The first in a series of articles introducing the concept of night health, this article begins with a closer look at the limitations of the simulated sleep offered by sleeping pills. It then examines the basic alternative of supplemented sleep: the place of natural sleep-supporting supplements. Finally, it offers suggestions for increasing the utilization of such alternatives by supplementing supplements with essential information, education and guidance offered by a new and unique software program and the first book about integrative sleep health. Simulated Sleep As the public becomes increasingly aware of the health ramifications of sleep disturbances, more and more people are turning to sleeping pills. In fact, according to the IMS Health research, about 42 million prescriptions for sleeping pills were filled last year in the U.S. This represents a nearly 60 percent increase over the past five years alone. Some projections anticipate that the current $2.7 billion in annual sleeping pill sales will more than triple by 2010. But instead of solving the problem, sleeping pills often make sleep problems worse. Sleeping pills commonly result in dependence. They can alter normal sleep architecture, cause amnesia and residual daytime “hangovers,” and they often result in rebound insomnias when discontinued. Some sleep specialists argue that sleeping pill use is further associated with significant increases in mortality. Given the sense of desperation that can accompany insomnia, even such very serious concerns have not prevented sales of sleeping pills from skyrocketing in recent years. We are currently witnessing an unprecedented advertising campaign on the part of the pharmaceutical industry designed to convince the public that sleep medications are indeed a safe and effective strategy for addressing sleep problems. Despite clever and seductive advertising, however, it remains highly questionable whether sleeping pills can truly offer us sleep. I believe it is more accurate to say that they result in a kind of artificial or simulated sleep. Compared to natural slumber, sleeping pills cause a chemical knockout. Unfortunately, so many people have slept poorly for so long, they have forgotten what it is like to experience truly restorative, deep and refreshing natural slumber. Instead, many people now hold a naïve, limited sense of healthful sleep, confusing it with being knocked out. And sleeping pills satisfy that very naïve notion of sleep. Supplementing sleep Rather than artificially simulating sleep with chemical knockouts, sleep-promoting supplements such as melatonin, valerian, and other botanicals support that body’s own sleep-facilitating mechanisms more naturally. Such products work in greater harmony with nature and, unlike conventional drugs, they do not stimulate sleep, they supplement sleep. I think of natural supplements inviting us to sleep. The very potency of many natural products lies in their very gentleness, which works cooperatively with both body and mind to induce healthful sleep. I believe that the potential benefits and markets for such supplements remain largely untapped. Consumers’ expectations that sleep aids should knock them out rather than gently assist them in letting go into sleep must be addressed through targeted education and information campaigns. Consumers also need to learn how to use alternative sleep supplements in the context of a healthy sleep lifestyle or positive night health. Supplementing supplements As helpful as they can be in promoting night health, sleep supplements alone will not do the trick. In fact, I believe many people get discouraged and discount the potentially positive benefits of sleep supplements after using them without proper guidance and understanding. Sleep supplements work best when they are geared to work synergistically as a part of a larger night health promotion program. The availability of a wide range of over-the-counter health supplements offers an important freedom in healthcare choices. But with increased freedom comes increased responsibility. Consumers need to become significantly more informed. Particularly with regard to night health, such supplements need to be personalized and prescriptive. When it comes to sleep health, one size does not fit all. Whether we choose melatonin or valerian or a specific blend depends upon who we are and exactly what we need. By prescriptive I do not mean ordered by a physician, but specifically tailored to the needs of the individual. Because of a significant shortage of health care professionals knowledgeable about sleep and the alarming trend towards increased use of sleeping pills, I have assisted in the development of a unique software program that provides sleep solutions that are both personalized and prescriptive. After more than a decade in development, the sleep advisor—an expert software system that thoroughly evaluates and provides personalized comprehensive recommendations for improving sleep—is now available. More recently, I completed the first truly integrative book on night health. Healing night: the science and spirit of sleeping, dreaming, and awakening offers a new, comprehensive perspective on night health that complements the sleep advisors high pragmatic approach. Together, healing night and the sleep advisor offers essential supplements to sleep supplements. Rubin R Naiman is a psychologist and clinical assistant professor of medicine at the university of Arizona’s health sciences center. He is also the sleep and dream specialist for dr. Andrew weil;s world renowned program in integrative medicine. Currently he serves as the sleep specialist at Miraval Resort, and is in private practice in Tuscon, AZ. The above article is for informational purposes only and is not intended to diagnose or treat a particular illness. The reader is encouraged to seek the advice of a holistically competent licensed professional health care provider. The information in this article has not been evaluated by the food and drug administration. This product is not intended to diagnose, treat, cure or prevent any disease.
Rubin R. Naiman, PhD
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1276) PADMA BASIC: A Tibetan Herbal Formula
Date:
June 21, 2005 05:27 PM
PADMA BASIC: A Tibetan Herbal Formula By Isaac Eliaz, M.D. "As an integrated system of health care, Tibetan medicine can offer allopathic medicine a different perspective on health. However, like other scientific systems, it must be understood in its own terms, as well as in the context of objective investigation. In practice it can also offer Western people another approach to achieving happiness through health and balance." --His Holiness the Dalai Lama, May 16, 1997
In this article I want to discuss a Tibetan-based herbal formula that reflects the philosophy outlined by H.H. the Dalai Lama. PADMA BASIC® is an extensively researched formulation that bridges the gap between Classical Tibetan Medicine and the modern Western medical paradigm. With over 50 published scientific papers spanning the last 30 years, PADMA's popularity among Western medical professionals can be attributed to its history of safe use and its health-enhancing properties. The original formula, used for centuries as a cardiovascular tonic and to counteract "heat" (inflammatory processes or infections), made its way to Europe by the first half of the 20th century. Acceptance of an ancient Tibetan formula into the Western medical tradition requires sensitivity to both the original Tibetan intention, and the rigorous requirements of the international pharmaceutical community. Today PADMA BASIC is produced in accordance with strict manufacturing guidelines. The herbs are grown organically, or meticulously tested to ensure they are not contaminated. Ingredients are verified using thin layer or high pressure liquid chromatography. While the highest "scientific Western methods" are used, traditional Tibetan "scientific methods" of smelling and tasting are also followed. PADMA BASIC can be understood from two viewpoints. In Classical Tibetan Medicine, good health means maintaining a dynamic equilibrium of universal elemental forces. Illness is a manifestation of imbalance. Therapeutic intervention aims at restoring balance by treating the cause, not just the symptoms. Within this traditional model, PADMA has three functions:
PADMA BASIC Ingredients: Iceland moss (Cetraria islandica), Costus root, neem fruit (Azadirachtaindica), Cardamom fruit, Red Saunders heart wood (Pterocarpus santalinus), chebulic myrobalan fruit (Terminalia chebula), Allspice fruit, bael tree fruit (Aegle marmelos), Calcium Sulfate, Columbine aerial part (Aquilegia vulgaris), English Plantain aerial part, Licorice root, Knotweed aerial part (Polygonum aviculare), Golden cinquefoil aerial part (Potentilla aurea), Clove flower, Spiked ginger lily rhizome (Hedychium spicatum), Valerian root, Lettuce leaf (Lactuca sativa), Calendula flower, Natural Camphor (Cinnammum camphora). Dr. Isaac Eliaz is a medical doctor and licensed acupuncturist with extensive training in complementary modalities. For 15 years, his practice has centered on the integrative treatment of cancer. He has been involved in numerous studies investigating the effects of nutritional supplements on cancer and has been granted two patents.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=389) GPC (GlyceroPhosphoCholine) Versatile Life Support Nutrient ....
Date:
June 21, 2005 05:25 PM
GPC (GlyceroPhosphoCholine): Versatile Life Support Nutrient Parris Kidd, Ph.D.
GPC or GlyceroPhosphoCholine (pronounced gli-sero-fos-fo-ko-lean) is a nutrient with many different roles in human health. It reaches extremely high concentrations within our cells, and its abundance in mother's milk suggests it is crucial to life processes. Clinically, GPC has been most intensively researched for its brain benefits. Biologically, it has great importance for the skeletal "voluntary" muscles, the autonomic nervous system, kidneys, liver, and reproductive organs. GPC goes beyond being a brain nutrient; it is a nutrient for vitality and long life. As a dietary supplement, GPC's brain benefits are unique. It boosts mental performance in healthy young people, as shown by three double-blind trials. In trials on middle aged subjects, GPC improved several physiologic measures of mental performance: reaction time, visual evoked potential, and EEG delta slow waves. In the elderly, GPC improves mental performance and provides noticeable revitalisation. In 11 human trials with 1,799 patients, memory, attention, and other cognitive measures improved. So did mood (including irritability and emotional lability), and patients often developed renewed interest in relatives and friends. GPC was well tolerated, and generated no bad drug interactions. A large trial on elderly subjects with memory challenges published in 2003 concluded GPC had significant benefits for these individuals. GPC Supports Normal Brain Function Circulatory deprivation or surgery can challenge healthy brain function. GPC can speed recovery and support improved quality of life. In four trials with GPC on 2,804 subjects who experienced difficulties under these circumstances, up to 95% showed good or excellent improvement. GPC consistently improved space-time orientation, degree of consciousness, language, motor capacity, and overall quality of life. The investigators concluded GPC offered marked benefits, with an excellent benefit-to-risk profile. Up to half of patients who survive bypass surgery experience problems with memory and other mental performance. A double-blind trial conducted with bypass survivors for six months determined that the GPC group had no remaining memory deterioration, while the placebo group failed to improve. GPC Works Through Multiple Mechanisms GPC supports human health through a variety of mechanisms: 1. It helps keep choline and acetylcholine available to the tissues. Choline is an essential nutrient and GPC appears to be the body's main choline reservoir. GPC in mother's milk represents the baby's main source of dietary choline. Acetylcholine (ACh) is an important substance employed extensively throughout the body. ACh is a major brain transmitter; the motor nerves use ACh to drive the skeletal ("voluntary") muscles; the autonomic nervous system uses it to pace all the organs. ACh is also central to mental and physical endurance, and mind-body coordination. 2. GPC is a major cell-level protectant, not as another antioxidant but in pivotal roles of osmotic pressure regulator and metabolic antitoxin. GPC for osmotic regulation can reach very high concentrations in the kidney, bladder, liver, brain, and other organs. As metabolic protectant, GPC shields proteins against urea buildup. 3. GPC is a major reservoir for cell membrane omega-3 phospholipids. These substances are the major building blocks for cell membranes. Enzymes couple GPC with the omega-3 fatty acid DHA, to make the phospholipid PC-DHA. This makes membranes especially fluid, enabling membrane proteins to perform with better efficiency. GPC produces PC-DHA in the skeletal muscles, wherein fluidity is essential for contraction. Muscles that function abnormally can show GPC deficiency. 4. GPC contributes to both male and female in reproduction. As spermatozoa mature, GPC is used to make PC-DHA that makes their membranes fluid to enable motility. With men, the lower their semen GPC the greater the likelihood of poor sperm motility and with it, infertility. Once semen is inserted into the female, an enzyme in uterine secretions breaks down the semen's GPC into substances that energize the sperm to achieve fertilization. Dosing, Safety, Tolerability, Compatibility Oral intake of GPC in the clinical trials was usually 1,200 milligrams (mg) per day, taken early in the day on an empty stomach. A reasonable dietary supplementation regimen is 1200 mg/day, taken in divided doses (AM and PM) between meals for 15-30 days, and thereafter 600 mg/day for maintenance. Symptomatic subjects can take 1200 mg/day until adequate improvement is achieved. Young, healthy subjects may experience benefit from daily intakes as low as 300 milligrams. GPC is very safe, being compatible with vitamins and nutrients and with pharmaceuticals. In clinical trial comparisons, GPC's benefits surpassed the nutrients acetylcarnitine and CDP-choline. GPC is unmatched for its support of active living and healthy aging. In some 23 clinical trials GPC improved mental performance in all functional categories. GPC can revitalize the aging brain, facilitating growth hormone (GH) release and boosting nerve growth factor actions. GPC's ample presence in human mother's milk suggests it could be conditionally essential. By supporting mental integrity, mind-body integration, the autonomic system, and the body's other organs, GPC enhances the active lifestyle. GPC is remarkable nutritional support for optimal health at any age.
Parris M. Kidd, PhD is a cell biologist trained at the University of California, Berkeley and San Francisco. Since entering the dietary supplement field in 1983, he has published many in-depth reviews of integrative medicine in the journal Alternative Medicine Reviews, and is science columnist for totalhealth magazine. Dr. Kidd is internationally recognized for his accomplishments in dietary supplement product development, documentation and quality control. Disclaimer: the above article is for informational purposes only and is not intended to diagnose or treat a particular illness. The reader is encouraged to seek the advice of a holistically competent licensed professional health care provider.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=388) Modified Citrus Pectin (MCP) and Mercury Cleansing Programs...
Date:
June 21, 2005 05:02 PM
Modified Citrus Pectin (MCP) and Mercury Cleansing Programs by Isaac Eliaz, M.D., M.S., L.Ac. Modified Citrus Pectin (MCP) is a dietary supplement derived from the peel and pulp of citrus fruit. MCP is mostly known for its positive effects on cellular health. Recently, however, clinical research on MCP has produced exciting results for its use as a gentle chelator (eliminator) of mercury and other heavy metals. Some of the expanding clinical applications for MCP include: The Problem with Mercury Recent news on mercury is particularly concerning for the U.S. population. In March 2004 the EPA issued a press release reporting nearly all fish contained traces of mercury. Some samples contained levels high enough to harm an unborn baby or young child's developing nervous system. These findings prompted the EPA to issue a warning to women who may become pregnant, pregnant women and nursing mothers advising them to eat only two meals of fish per week that are thought to have lower levels of mercury.1 In their most recent update (August 2004), the EPA issued a warning that 1/3 of the nation's lakes and 1/4 of its river ways are contaminated with toxic levels of mercury and other contaminants, and warned pregnant women and children against consumption of fish from these sources. Additionally, a National Academy of Sciences panel definitively warned that some children who had been exposed to mercury while in the wombs of their mothers were at risk for becoming those children "who have to struggle to keep up in school and who might require remedial classes of special education." The risk of mercury toxicity from fish has reached epidemic levels. Two studies have further spurred on the concerns of mercury toxicity, as they both found women to have mercury levels that are 8-10% above what is considered safe.1,2 Furthermore, women who ate more fish were found to have higher levels of mercury. Another source of mercury toxicity may be amalgam dental fillings. Heavy metals, in conjunction with the abundant presence of environmental toxins and xenoestrogens, constitute a dangerous insult to the body through DNA damage, hormonal modulation, immune suppression, oxidative stress, and cellular irritation. A New Application for MCP Use: Heavy Metal Detoxification The standard western medical approach for removing mercury from the body to treat mercury toxicity is chelation. This procedure is performed with harsh chelators that can cause multiple side effects while potentially robbing the body of some of its essential nutrients. While this may be the routine and most beneficial procedure when facing a serious toxicity problem, are there other, gentler ways to reduce mercury levels? Two recent clinical studies have found that MCP may be a promising new dietary solution for reducing heavy metal load. In one recent clinical study, MCP was administered to a group of volunteers, and baseline levels of their total body mercury burden were measured and then compared against levels after treatment with MCP (15 grams of PectaSol® daily) for four months. The results showed a significant average decrease (over 60%; p=0.03) in the total body mercury burden after treatment with MCP3 In an earlier study, PectaSol® was given to patients and proven to increase urinary secretion of heavy metals such as lead, mercury, cadmium and arsenic.4 Both studies concluded that MCP may be a promising alternative to the harsher intravenous chelating therapies as MCP was found to be both effective and free of any side effects. How MCP Works as a Gentle Chelator Pectins are natural gelling agents, binders, thickeners, and stabilizers in foods. They mostly consist of galacturonic acid and galacturonic-acid methyl esters with average molecular weights from 50,000 to 150,000 daltons. High-methoxy (HM) pectin has at least 50% DE (degree of esterification) or greater, while a low-methoxy (LM) pectin?s DE is 50% or less. For systemic chelation of heavy metals, pectin is modified to a low molecular weight, and low-methoxy content. My observation from using MCP as a detoxification agent in my clinic is that it works as a gentle chelator in the bloodstream and it is very useful for ongoing use. Because fish are still recommended as part of a healthy diet and an essential source of certain nutrients (essential fatty acids like DHA), mercury levels are also becoming a widespread health concern. It is a Catch-22 for dietary health. As the widespread environmental cleanup of mercury is unlikely in the short-term, the medical community should develop methods to treat toxicity or reduce high body levels of mercury body burden. One approach is the use of traditional and alternative medicine cleansing programs along with the use of dietary supplements such as MCP that may act as gentle chelators. For chelation purposes, 5-15 grams of MCP should be taken per day depending on mercury levels for one year. Maintenance at 2-5 grams per day thereafter is usually sufficient. In my practice, I use 15 grams per day or 15 grams per day in the first 3-5 days of the month and 5 grams per day for the remainder of the month. MCP is generally regarded as safe and is well tolerated. Reported side effects have been rare, but may include mild and transient gastrointestinal discomfort. References: 1-CDC Press Release: Blood and Hair Mercury Levels in Young Children and Women of Childbearing Age-United States, 1999 (see:/media/mmwrnews/n010302.htm#mmwr3) 2-Schober, SE, Sinks, TH, Jones, RL et al. (2003) Blood mercury levels in US children and women of childbearing age, 1999-2000. Journal of the American Medical Association. 289(13) :1667-74. 3-Eliaz, I. (2004) Modified citrus pectin (MCP) in the treatment of cancer. Paper presented at: The American Chemical Society Annual Meeting; Philadelphia, PA. 4-Eliaz, I. and D. Rode (2003). The effect of modified citrus pectin on the urinary excretion of toxic elements. Fifth Annual Conference of Environmental Health Scientists: Nutritional Toxicology and Metabolomics, University of California, Davis.
-------------------------------------------------------------------------------- Isaac Eliaz, M.D., M.S., L.Ac., is a pioneer in the field of integrative medicine and founder of Better Health Publishing®, an education-based company that provides health care professionals, consumers and other interested parties with scientific research on integrative medicine. He is a respected author, clinical practitioner and frequent guest lecturer on integrative medical approaches to health, immune enhancement and cancer prevention and treatment. Since 1991, Dr. Eliaz has maintained a busy private practice in Sebastopol, California, and is the current medical director of the Amitabha Medical Clinic and Healing Center (email:information@amitabhaclinic.com) which focuses primarily on integrative and holistic protocols for cancer patients as well as those with chronic health challenges.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=382) Down with Blood Pressure
Date:
June 12, 2005 08:03 AM
Down with Blood Pressure by Kim Erickson Energy Times, January 6, 2002 More than one of four Americans suffers from high blood pressure, also known as hypertension. This so-called silent killer is often the first step in developing long-term problems like heart disease and stroke. According to the American Heart Association, high blood pressure leads to about 45,000 deaths a year and contributes to another 210,000. Hypertension is more common in women beginning at age 50, particularly African-American women. And since high blood pressure rarely causes obvious physical distress, unless your health practitioner monitors your blood pressure on a regular basis, it's easy to miss. The famous study by the National Heart, Lung and Blood Institute (NHLBI), known as the Framingham Heart Study, found that half of all people who suffered a first heart attack and two-thirds of first-time stroke victims also had moderate to high blood pressure. What's more, left untreated, high blood pressure can also increase the risk of atherosclerosis (hardening of the arteries), aneurysms, loss of vision and kidney failure. Normal blood pressure is considered 120/80. When blood pressure reaches 140/90 or above on a consistent basis, you have high blood pressure. What do the numbers mean? The top number, systolic pressure, represents the peak pressure generated in your arteries when your heart beats. The bottom number, diastolic pressure, indicates the pressure when your heart is at rest between heartbeats. Among 95% of all people with high blood pressure, health practitioners can generally pinpoint no specific, single cause. So Salty For decades, the most common recommendation for people with high blood pressure was to eat less salt. Experts have advocated reducing our salt intake to no more than three teaspoons a day: six grams (2400 mg), which is four grams less than the current national average. This recommendation was largely based on a study conducted by Northwestern University Medical School in Chicago, Illinois, known as INTERSALT. The study tested more than 10,000 men and women from 32 countries. The researchers concluded that eating a lot of salt was linked to rises in blood pressure. Other scientists haven't always found the same results. One review of 56 clinical trials by the Integrative and Behavioral Cardiology Program at the Mount Sinai School of Medicine in New York found only a modest reduction in blood pressure when the salt shaker was left unshaken. And an analysis of 58 studies by academics at the University of Copenhagen, Denmark found that, overall, studies did not support a general recommendation to reduce the amount of salt we consume. Added to all this confusion, many people are salt sensitive: their bodies retain excess salt instead of flushing it out of their systems. Unfortunately, only medical tests can reveal this sensitivity. Consequently, experts still recommend that you eat fewer foods containing salt. That means going easy on processed foods, lunch meats and soft drinks. In addition, increasing your intake of potassium, calcium and magnesium may help your blood pressure. Mitigating Minerals Foods rich in potassium and magnesium not only help regulate blood pressure, but may boost overall cardiovascular health and reduce the risk of stroke. Vegetarian items such as bananas, baked potatoes and oranges are rich in these minerals. Research that looked at 30,000 doctors found that those who ate diets rich in fiber, potassium and magnesium had lower blood pressure than the men who ate few of these mineral-rich foods (Circ, 1992; vol 86:1475-1484). A study of 40,000 female nurses found that their pressure decreased when they consumed fibrous and magnesium-filled foods (Hypertension, 1996, vol 27:1065-1072). CoQ10 The nutrient CoQ10 is a vitamin-like substance which acts as an antioxidant in the body, decreasing the harm caused by caustic substances known as free radicals. Found in every part of the body, CoQ10 is necessary for producing energy in every cell. But it is estimated that nearly 40% of people with high blood pressure are deficient in CoQ10. Tests of CoQ10 seem to show that it can often reduce blood pressure by almost 10% (Cur Ther Res 1990;47: 841-845). It also appears to reduce blood triglycerides, blood fats linked to heart disease, and insulin, while slightly increasing HDL (good) cholesterol. Food Fight Perhaps the biggest breakthrough in lowering blood pressure without the use of prescription medicine came with a study known as DASH (Dietary Approaches to Stop Hypertension). Funded by NHLBI and the National Institutes of Health, the multicenter study examined more than 400 people with high blood pressure. These folks were divided into three groups. One ate the standard high-sodium, high-fat American diet, the second a diet high in fruits and vegetables, and the third a combination diet rich in fruits, vegetables and low-fat dairy products (the DASH diet). While the group eating plenty of fruits and vegetables enjoyed a modest reduction in blood pressure, the study found that combining low-fat dairy with produce lowered both systolic and diastolic blood pressure by 11.4 and 5.5 points, respectively. And the benefits came quickly. Many of the people on the combination diet lowered their blood pressure within two weeks. The results were so impressive that researchers at Brigham and Women's Hospital in Boston, Massachusetts suggested that the DASH diet may offer an alternative to drug therapy for people with hypertension and may even serve to prevent high blood pressure altogether. The DASH diet is low in saturated fat and rich in whole grains, fruits and vegetables. Similar to the diet found in Mediterranean cultures, DASH also includes nuts, seeds and legumes, and is supplemented by non- or low-fat dairy products. Moderate amounts of protein-in the form of fish, poultry and soy-are also eaten. Eating in the DASH may also spur weight loss. Since being overweight can increase your blood pressure, the NHLBI strongly recommends a low-calorie diet such as DASH to take off extra pounds. Exercise and stress relief play critical roles in most pressure-reducing plans. Working out not only helps shed weight, it can also lower your blood pressure. Low to moderate aerobic exercise four days a week may lower blood pressure just as effectively as a higher intensity workout. And learning how to manage stress has helped dropped pressures in people with hypertension (Arch Intern Med 2001; 161:1071-80). Nutrition and lifestyle: two vital relief valves for dropping your high blood pressure and increasing your chances of longer life.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=300) Breast Cancer
Date:
June 10, 2005 09:44 PM
Breast Cancer by Joseph L. Mayo,MD Mary Ann Mayo, MA Energy Times, May 2, 1999 What do you fear most? Bankruptcy? Floods? Heart disease? If you're like many women, breast cancer stands near the top of that dreaded list. But that fear doesn't permeate other cultures the way it does ours. A woman like Mariko Mori, for instance, 52 years old, Japanese, worries about intense pressures beginning to burden her toddler grandson. But worry about breast cancer? Hardly. In Indiana, Mary Lou Marks, 50, has similar family frets, mulling over her 28-year-old daughter's career choice. But on top of that, when Mary Lou tabulates her other worries, she recoils at the thought of breast cancer. She's heard about her lifetime risk: 1 in 8. Meanwhile, Mariko's is merely 1 in 40, according to Bob Arnot's Breast Cancer Prevention Diet (Little, Brown).
American Problem New studies have found the effect of carrying the gene linked to breast cancer, which is responsible for only 5 to 10% of breast cancer incidence, is not as great as first suspected. Earlier estimates that the gene reflects an 80% chance of incurring breast cancer by age 70 has been recalculated to be only 37% (The Lancet, 1998;352:1337-1339). Complex Causesbr> Researchers agree: No one factor is solely responsible for breast cancer. Risk depends on many factors, including diet, weight, smoking, alcohol consumption, activity level and, of course, those genes. Regardless of their actual chance of getting breast cancer, women worry. Mary Lou faces no factors that would place her in particular jeopardy. But her anxieties about radical therapies and medical expenses paralyze her: She forgets to visit her health care provider and skips her annual mammogram appointments. Mary Lou's daughter, perhaps in reaction to her mother's gripping fears, campaigns ardently for cancer prevention, educating herself and mobilizing against the cumulative effects of known cancer risks. Smart young woman: A malignancy, after all, can take years to develop. A tumor must swell to one billion cells before it is detectable by a mammogram.
Dietary Benefits The soy-rich regimen of Japanese women like Mariko Mori, for example, helps to explain the low breast cancer rates in Asian countries (see box at center of the page). Tomatoes, because of their high quotient of the carotenoid lycopene, have been found to protect cells from the corrosive clutches of oxidants that have been linked with cancer in 57 out of 72 studies (The Santa Rosa Press Democrat, February 17, 1999, page A6, reporting on a Harvard Medical School study). For more on tomatoes see page 16. But there's no one magic anti-cancer food or diet. Eating to prevent breast cancer requires a balanced menu with fiber, healthy fats, phytoestrogens and antioxidants, all fresh and free of chemical additives. Modifying the balance and type of estrogen, the female sex hormone produced by the ovaries, offers an important breast cancer safeguard. Fat cells, adrenal glands and, before menopause, the ovaries, produce three "flavors" of estrogen, the strongest of which, estradiol, is believed to be carcinogenic when too plentiful or persistent in the body. Estrogen does its work by attaching to estrogen receptors. Receptors are particularly numerous in the epithelial cells that line milk sacs and ducts in the breasts. A receptor site is like a designated parking spot: Once estrogen is parked there it triggers one of its 400 functions in the body, from preparation of the uterus for pregnancy to intensifying nerve synapses in the brain. The food we eat can be a source of estrogen; plant estrogens, called phytoestrogens, are much weaker than the body's estrogens, but they fit the same receptors. Phytoestrogens exert a milder estrogenic effect than bodily estrogen and are capable of blocking the more potent, damaging versions.
Finding Phytoestrogens Soy also contains genistein, an "isoflavone" very similar in molecular form to estrogen but only 1/100,000 as potent. Because of its structure, genistein can attach to cells just as estrogen does; it also helps build carriers needed for binding estrogen and removing it from the body (Journal of Nutrition 125, no.3 [1995]:757S-770S). It acts as an antioxidant to counteract free radicals.
Tumor Inhibition Soy is most protective for younger women. Postmenopausal women benefit from soy's ability to diminish hot flashes and for cardiovascular protection, especially in combination with vitamin E, fiber and carotene (Contemporary OB/GYN, September 1998, p57-58). Experts don't know that much about the cumulative effect of combining hormone replacement with soy, herbs and a diet high in phytoestrogens. Menopausal women who boost their estrogen this way should work with their health care providers and monitor their hormonal levels every six to 12 months with salivary testing.
The Vegetable Cart Fiber from fruits, vegetables and whole grains reduces insulin levels and suppresses the appetite by making make us feel full, thus helping with weight control, so important to resisting cancer. Fiber also helps build estrogen carriers that keep unbound estrogen from being recirculated and reattached to the breast receptors. Cellulose, the fruit and vegetable fiber most binding with estrogen, also rounds up free radicals that damage DNA within cells.,p> Feeding the Immune System Despite heightened public awareness and efforts to stick to wholesome, healthful diets, experts increasingly link poor nutrition to depressed immune systems. Many Americans are at least marginally deficient in trace elements and vitamins despite their best attempts to eat well; that's why a good multivitamin/mineral is wise, even mandatory. Vitamins given to people undergoing cancer treatment stimulate greater response, fewer side effects, and increased survival (International Journal of Integrative Medicine, vol. 1, no. 1, January/February 1999). Nutrients tend to work synergistically on the immune system. They should be taken in balanced proportions, and in consultation with your health care provider.
Immune Boosters n Riboflavin (B2), pyridoxine (B6), pantothenic acid (B5), zinc and folate strengthen immunity. Selenium, in lab culture and animal studies, has helped kill tumors and protect normal tissues. n Beta-carotene and vitamins A, E and C are antioxidants. Vitamin C enhances vitamin E's effects, boosting immunity and protecting against cell damage. The antioxidant isoflavones in green tea, with soy, convey the anticancer effects of the Asian diet. Research shows actions that discourage tumors and gene mutations. The food you eat influences hormones. Excess sugar raises insulin, which acts as a growth factor for cancer and interferes with vitamin C's stimulation of white blood cells. It may contribute to obesity. Alcohol is converted to acetaldehyde, which causes cancer in laboratory animals. It affects gene regulation by decreasing the body's ability to use folic acid. It increases estrogen and the amount of free estradiol in the blood. The liver damage that accompanies high alcohol consumption frequently reduces its capacity to filter carcinogenic products, regulate hormones and break down estrogen. Studies of alcohol consumption have caused experts to estimate that drinking more than two alcoholic beverages a day increases breast cancer risk by 63% (OB-GYN News, November 1, 1998, p. 12).
Fat Can be Phat Fat cells produce estrogen. Excess fat stores carcinogens and limits carriers that can move estrogen out of your system. Once estrogen has attached itself to a receptor, the health result depends on the type of fat in the breast. Saturated fat, transfatty acids and omega-6 fat from polyunsaturated vegetable oils such as safflower oil, peanut, soybean oil, corn oil and in margarine can increase the estrogen effect and trigger a powerful signal to the breast cell to replicate.
Restraining Prostaglandins Breast tissue is protected by omega-3 fat chiefly from fish and flaxseed and by omega-9 from olive oil. Salmon once a week or water packed tuna three times a week are particularly beneficial. Fish oil supplements processed to reduce contaminates are available. Cod liver oil isn't recommended: its vitamin A and D levels are too high. Flaxseed is the richest known plant source of omega-3. Use a coffee grinder to benefit from the seed and oil for the full estrogen effect; sprinkle ground flaxseed over cereal or fold into baked goods. Drizzle flaxseed oil, found in the refrigerator section of your health food store, over salads or cereal. (Store the oil in the refrigerator.) Olive oil, especially in the context of the so-called Mediterranean diet of vegetables, omega-3-rich fish and fresh fruit (Menopause Management, January-February 1999, p. 16-19), lowers the risk of breast cancer (The Lancet, May 18, 1996;347:1351-1356).
Selecting Organic Food Buy or grow fresh, organic foods whenever you can. When grilling meat, fish or poultry, reduce the area where carcinogens may accumulate by trimming fat. Charred, well-done meat is known to be carcinogenic. When grilling, marinate meat first and reduce the cooking time on the grill by slightly precooking. Cancer prevention is an interlocking puzzle requiring the limitation of fat consumption, weight control, exercise, stress reduction and care for psychological and spiritual balance. Possessing more cancer fighting pieces makes you more likely to be able to complete the prevention picture. Joseph L. Mayo, MD, FACOG and Mary Ann Mayo, MA, are the authors of The Menopause manager: A Safe Path for a Natural Change, an individualized program for managing menopause. The book's advice, in easy-to-understand portions, isolates in-depth explanations with unbiased reviews of conventional and alternative choices. A unique perspective for mid-life women who want to know all their options. Also from the Mayos - The HOW Health Opportunities For Women quarterly newsletter to help women learn HOW to make informed health choices. Learn HOW to: - Choose nutritional supplements
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=281) The Latest Breakthroughs in Garlic Research on Cancer and Cardiovascular Disease 
Date:
June 09, 2005 05:22 PM
The Latest Breakthroughs in Garlic Research on Cancer and Cardiovascular Disease Presented at the 2005 World Garlic Symposium
Many of the world’s top-level scientists gathered in Washington D.C. this week for the 2005 Garlic Symposium, entitled, “Significance of Garlic and its Constituents in Cancer and Cardiovascular Disease.” The conference provided current scientific information about the effect of garlic and its constituents on health and performance. The symposium was held at the Georgetown University Conference Center on April 9-11, 2005. “For the first time in seven years authorities in various fields of garlic research from all over the world to provide the latest updates, specifically regarding aged garlic extract and its actions in diseased states including heart disease and cancer,” commented Dr. Matthew Budoff, M.D. cardiovascular researcher at UCLA. “Garlic has been used medicinally for thousands of years in virtually all ancient cultures. Now, new metabolic roles for garlic are being proposed and there are many promising lines of research.” Presentation highlights included:
Effect of aged garlic extract (AGE) has been tested in the placebo-controlled double blind randomized clinical study that determined that the atherosclerotic plaque burden detected by electron beam tomography (EBT) changed significantly with the use of aged garlic extract, Patients in Dr. Budoff’s study were able to significantly lower their total cholesterol, blood pressure, homocysteine and LDL cholesterol oxidation levels with aged garlic extract supplementation.
“Garlic is turning out to be a major player in cancer and heart disease prevention and control, especially in combination with drug treatments,” said Richard Rivlin, M.D. of Strang Cancer Prevention Center at Cornell. “It’s also showing us that we can start early. It’s madness to treat cancer and heart disease in their advanced stages. We need to start early and aged garlic extract is an excellent way to do that.” Almost 400 scientific studies have been completed on aged garlic extract, done in major universities worldwide. These studies have focused on a variety of heart disease risk factors such as cholesterol, high blood pressure, homocysteine levels, inhibiting LDL oxidation, anti-platelet aggregation and adhesion, stimulating blood circulation; in addition to other studies on immune stimulation, cognitive effects, liver function and anti-tumor effects. . Abstracts PRECLINICAL PERSPECTIVE ON GARLIC AND CANCER. John A. Milner, National Cancer Institute, Rockville, MD 20892 Mounting evidence points to the anticancer properties of fresh garlic extracts, aged garlic, garlic oil, and a number of specific organosulfur compounds from garlic. These prevention characteristics arise through both a dose and temporal related change in several cellular events including those involving drug metabolism, immunocompetence, cell cycle regulation, apoptosis and angiogenesis. A block in carcinogen activation through modulation of cytochrome P450-dependent monooxygenases and/or acceleration of carcinogen detoxification via induction of phase II enzymes likely account for some of this protection. The block in preneoplastic lesions and/or tumors in several sites suggests a generalizable mechanism. The efficacy of water- and lipid-soluble allyl sulfur compounds against chemical carcinogenesis appears comparable, although more studies are needed. A shift in sulfhydryl groups, redox status or enzyme catalysis may account for some of the phenotypic changes. They may also account for the observed hyperphosphorylation of specific cell cycle related proteins and histone hyperacetylation; both of which have been correlated with suppressed tumor cell proliferation. Several forms of allyl sulfur compounds are effective in blocking cell division and inducing apoptosis, but notable differences in the efficacy among these various compounds and across tumor types are evident. While the expression of many genes and proteins can be influenced by allyl sulfides; the challenge is to determine which is responsible for a phenotypic change. Additional studies are needed with more modest exposures and over prolonged periods and that utilize transgenic and knockout models to assist in the identification of molecular targets. Finally, additional research is needed to identify sensitive “effect” and “susceptibility” biomarkers that can ultimately be used to identify responders from non-responders. INHIBITION OF CORONARY ARTERIAL PLAQUE ACCUMULATION BY GARLIC. Matthew Budoff, Harbor-UCLA Medical Center, UCLA School of Medicine, California, USA Effect of Aged garlic extract (AGE) has been tested in the placebo-controlled double blind randomized clinical study to determine whether the atherosclerotic plaque burden detected by electron beam tomography (EBT) will change at a different rate under the influence of AGE or placebo. EBT can non-invasively quantitate the amount of coronary calcification and track atherosclerotic plaque over time. Nineteen of 23 patients completed the study protocol. The patients were well matched for age, gender, statin use and cardiac risk factors. Patients underwent EBT and blood testing at baseline, and then again after 12 months of randomization. The average change in the calcium score (Volumetric method) ± SD for the AGE group (n = 9) was 7.5 ± 9.4% over the one year. The placebo group (n = 10) demonstrated 22.2 ± 18.5% annual progression, significantly greater than the treated cohort (p = 0.01). While there were no significant changes in cholesterol parameters, or C Reactive protein between the groups, high density lipoproteins and plasma homocysteine in the AGE group demonstrated a trend toward improvement compared to the placebo patients. Thus, although this is a small-scale trial, it demonstrates the potential of AGE to inhibit the rate of atherosclerosis (progression of coronary calcium), as compared to placebo over one year. Larger studies need to be performed to assess this potential anti-atherosclerotic therapy and the impact on coronary events. INFLUENCE OF GARLIC ON ENDOTHELIAL DYSFUNCTION IN HYPERHOMOCYSTEINEMIA. N. Weiss, N. Ide, T. Abahji, L. Nill, C. Keller, U. Hoffmann. Klinikum der Universität München, D-80336 Munich, Germany Endothelial dysfunction (ED) due to decreased bioavailable nitric oxide (NO) by increased vascular oxidant stress plays a critical role in the vascular pathobiology of hyperhomocysteinemia (hhcy). Aged Garlic Extract (AGE) minimizes intracellular oxidant stress and stimulates NO generation in endothelial cells. We performed a placebo-controlled, blinded, cross-over study to examine whether AGE prevents macro- and microvascular ED during acute hhcy induced by an oral methionine challenge in healthy subjects. Acute hhcy leads to a significant decrease in flow-mediated vasodilation of the brachial artery as determined by vascular ultrasound, indicative of macrovascular ED, as well as a decreased number of recruited nailfold capillaries during postischemic reactive hyperemia as determined by videomicroscopy, and to a decreased ratio of acetylcholine (endothelium-dependent) vs. sodium nitroprusside (endothelium-independent) iontophoresis induced skin perfusion as measured by laser doppler flowmetry, indicative of microvascular ED. Preliminary results show that pretreatment with AGE for six weeks diminishes the adverse effects of acute hhcy on endothelium-dependent brachial artery vasodilation and on acetylcholine-induced stimulation of skin perfusion. Whether or not this is accompanied by changes in biochemical parameters of ED is still under investigation. It is concluded that AGE may at least partly prevent a decrease in bioavailable NO during acute hhcy.
Bibliographies David Heber, MD, PhD, FACP, FACN Professor, UCLA Department of Medicine - Division of Clinical Nutrition, at the David Geffen School of Medicine, UCLA, and UCLA School of Public Health; Director, UCLA Center for Human Nutrition; Director, NIH Center for Dietary Supplement Research in Botanicals (CDSRB); Director, NCI-funded Clinical Nutrition Research Unit; Vice Chair, UCLA Collaborative Centers for Integrative Medicine; Member, UCLA's Jonsson Comprehensive Cancer Center Matthew Budoff, MD, FACC Matthew Budoff, MD, FACC, is an associate professor of medicine at the UCLA School of Medicine and program director for the Division of Cardiology, as well as director of the Electron Beam CT Laboratory at Harbor-UCLA Medical Center in Torrance, Calif. He completed his undergraduate work at University of California, Riverside, and earned his medical degree at George Washington University in Washington D.C. Dr. Budoff’s efforts to identify and modify risk factors for cardiovascular disease using electron beam CT have been extensively published. His latest research focuses on the progression of arteriosclerosis.
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