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Walnuts can help improve sperm quality —Scientists
Date:
March 20, 2017 04:44 AM
Researchers have discovered the benefits of walnuts in the area of reproduction and a number of other health issues. In their study there was a noticeable correlation between the type and quality of fat in relation to sperm health. The fats in walnuts corroborate a previous study that walnuts improve reproductive health. A higher ratio of Omega 3 to Omega 6 is an indicator in a study of fertile and infertile men. More researchers is needed as to benefits of Omega 3. The study has shown walnuts improve health in the following: prostrate cancer, breast cancer, cognitive function and type 2 diabetes. According to the British Journal of Nutrition walnuts are also good for sustained mental reasoning. Information from Natural Health, March 16, 2017 by Sade Oguntola. Key Takeaways:
"A western-style diet has been blamed for lowering sperm function, especially motility, vitality and morphology in both humans and animals." Read more: http://tribuneonlineng.com/walnuts-can-help-improve-sperm-quality-scientists/
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=4227) Taurine - Essential or Non-Essential Amino Acid - You Decide?
Date:
February 17, 2011 10:56 AM
Amino Acid Taurine Is Essential For More Than You ThinkTaurine is an organic compound with acidic properties, which is synthesized in the pancreas in adults, but an essential amino acid in infants. Many neutraceutical products for infants are fortified with taurine, inasmuch as some newborns do not have the enzymes required to synthesize taurine. Taurine deficiency in adults results from deficiencies in other organic compounds, notably methionine and cysteine, which are its immediate precursors within the body. Helps in Brain Development It has long been postulated that taurine plays an important role in the human brain, especially in infants, protecting the nerve cells from possible Neonatal damages. Taurine continues to affect the nervous system as we age, acting on gamma-aminobutyric acid, or GABA, and consequently enhances inhibitory synaptic transmissions. In addition, taurine is alleged to stimulate continuous activation of synapses characteristic of long-term potentiation, which memory and learning ability stem from. Stabilizes Glucose Levels Taurine is a powerful inhibitor of glycation, a process by which sugar molecules attach themselves to other biomolecules without the aid of enzymes, and thus subsequently impair the functions of these biomolecules. This process may take place inside or outside the body, but the substances that result from this process, which are referred to as advanced glycation end-products or AGEs, contribute to the formation of a number of major disorders in later life such as cardiovascular diseases, Alzheimer’s disease, age-related deafness and blindness, and cancer. Taurine keeps the cells from taking up AGEs from the blood, which is slowly excreted in the urine. Regulates Adipose Tissues It has also been observed that dietary taurine influences the metabolic pathways that give rise to the formation of adipose tissues, the fat reserves of the human body. These fat depot appear anywhere in the body, but are commonly tied to the subcutaneous fats, those that we see on the belly, chest, arms, and thighs. Moreover, body fat percentage has been an indicator of obesity, which is central to the use of taurine in regulating adipose tissues. Influences Lipid Absorption Taurine is a major component of bile, the fluid produced by the liver, stored in the gallbladder, and secreted in the small intestines to aid in the digestion of triglycerides, cholesterol, and other lipids. Also, several studies point to the effect of taurine on the binding of proteins to lipids to form lipoproteins, compounds that have been notoriously labeled as bad cholesterol. Not surprisingly, taurine has been suggested to maintain healthy levels of blood cholesterol and prevent cardiovascular diseases. Fights Oxidative Stress Sodas have become a part of our daily diet today, but little did we know that they are risk factors for oxidative stress, the continued peroxidation of cellular structures. Fructose in sodas and other sweetened beverages is the most dangerous of all sugars, inasmuch as it releases by-products called AGEs, which are highly reactive to oxidation. AGEs do not get excreted right away and are instead absorbed by cells, leading to irreversible damages to neuronal and vascular tissues in later life. Intake of taurine removes this problem. Have you had your Taurine Today?
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Date:
May 12, 2005 09:33 AM
Keeping the Intestines Healthy"Friendly Bacteria" Therapy Breakthroughby Richard Conant, L.Ac., C.N. Ninety percent of the cells found in the human body are not of human origin. No, this does not mean we are all products of some sinister alien experiment. The human body is made up of about 10 trillion cells. This huge number is dwarfed by the bacteria we all carry around in our intestinal tracts. The lower bowel is a campground for roughly 100 trillion bacteria, single-celled plant organisms that can be seen only through a microscope. When we enjoy good intestinal health, the bulk of these bacteria are beneficial. Known as "friendly flora," these tiny guests help digest our food by breaking down undigested proteins, fats and carbohydrates. The friendliest of the friendly bacteria are the "lactobacilli," so named because they produce lactic acid in the bowel, by fermenting carbohydrates. This lactic acid production is profoundly important for keep the intestines healthy. And good intestinal health is the foundation of overall health. How do we maintain a thriving population of lactic acid-producing bacteria in the gut? First introduced into the human body through mother's milk, lactobacilli are somewhat fragile. Stress, poor diets, and antibiotics can kill them off. They should be replanted fairly regularly throughout life. One way to do this is through consumption of cultured milk products such as sour milk, kefir and yogurt, which contain live lactobacilli. They can also be consumed in dietary supplements, but this may or may not be a reliable route. Bacterial products do not keep very well on the shelf, they require refrigeration, and are largely destroyed on the trip from the mouth to the gut by our own digestive juices. Introducing Lactobacillus sporogenes- a revolutionary new friendly bacteria supplement. This article will focus on one particular species of lactobacilli, a relatively unknown member of the family called Lactobacillus sporogenes. This lactic-acid producing bacteria may prove to be one of the most practical forms for use in supplements, thanks to a unique property not shared by the more well-known friendly flora such as acidophillus. L. Sporogenes is a spore-forming bacteria. Safely enclosed within a spore coat that protects it from the environment, L. sporogenes is resistant to heat, oxygen and digestive acids. Once L. sporogenes reaches the intestines, its spore coat dissolves, freeing the bacteria to multiply and churn out the beneficial lactic acid. (The spore coat, made up of a calcium-protein-carbohydrate complex, is harmless).1 The difficulty of keeping friendly bacteria supplements alive is an ongoing problem for manufacturers of these products. Studies have analyzed various commerical products claiming to contain acidophilus and found they often contain few live bacteria.2,3 L. Sporogenes is naturally microencapsulated; this insulates it from the gauntlet through which friendly bacteria in dietary supplements must pass.1 Autointoxication-Poisoning by Bacterial Toxins The intestinal tract may also play host to pathogenic, or disease-causing bacteria. These "unfriendly flora" cause putrefaction and release injurious toxins into the lower bowel. This healthy picture is all too common, and has long been concern of wholistic health practitioners. The concept of "autointoxication," poisoning of the body by intestinal toxins, was popular among doctors in the late 19th and early 20th centuries. An editorial on the dangers of autointoxication which appeared in the June 3, 1893 issue of the Journal of the American Medical Association (JAMA) declared that "most likely a large majority of chronic diseases take their origin from this cause."4 The famous Russian physician Eli Metchnikoff pioneered the use of lactobacteria for preventing autointoxication and restoring bowel health. His landmark work 'Prolongation of Life' sparked interest in lactobacilli as a food supplement.5,6 Naturopathy, widely practiced during the early twentieth century, has always stressed the fundamental importance of bowel cleansing. With the advent of so-called "scientific medicine," naturopathy slipped into decline, and the concept of autointoxication was discredited. Over the last thirty years or so, this has changed. Naturopathic medicine has rebounded, and the importance of bowel health is once again recognized. A paper published in the New England Journal of Medicine in 1964, while opining that autointoxication "was exploited by quacks and faddists" in the early 1900's concedes that "the concept of autointoxication must now receive serious consideration."7 Leaders in the rebirth of natural medicine such as Dr. Bernard Jensen have helped educate the public about the importance of keeping the bowels healthy through regular use of lactobacilli. Jensen is well-known for his extensive studies of regions such as the Hunza Valley in Pakistan where people commonly live well over one hundred years. Jensen and others have noted that the consumption of fermented dairy products containing lactobacilli is a common dietary practice in these areas. Their observations have contributed to the popularity of friendly bacteria supplements. At the same time, clinical research has provided ample evidence of the beneficial effects of lactobacteria supplementation.5,9<.sup> Eubiosis-Keeping a Healthy Bacteria Population in the Intestinal Tract In his book 'Tissue Cleansing Through Bowel Management, which contains a wealth of valuable wisdom on intestinal health, Dr. Jensen writes, "Where health and vitality are found, we invariably find the friendly and beneficial microbes ... To a large extent the flora in the bowel determines the state of health in an individual."8 In a healthy bowel the friendly flora make up the bulk of the bacteria population. The unfriendly, disease-causing organisms are in the minority. The good bacteria keep them firmly under control. This healthy microbial balance in the gut is called "eubiosis." Life in our modern industrial society is hardly favorable to eubiosis. Residents of the Hunza Valley lead unhurried lives in a pristine, pollution-free environment. They grow their own food in fertile, nutrient-rich soil, work close to the landÐand consume lactic-acid producing bacteria on a daily basis. For the rest of us who cannot hope to enjoy this enviable lifestyle, eubiosis is something we should never take for granted. This means taking proactive steps to plant the seeds of health in our intestinal garden, by using a viable friendly bacteria supplement. Supplements which help to populate the intestinal tract with friendly bacteria are known as "probiotics." The term "probiotic" literally means "for life.' (In contrast, "antibiotic" means "against life.") Probiotics restore the natural state of "eubiosis" that is so very important for health and longevity. L. Sporogenes-an ideal probiotic Not every species of lactobacilli qualifies as an effective probiotic. As noted above, many do not survive processing, storage and passage through the digestive system very well. The following attributes make L. Sporogenes an ideal probiotic supplement:1,10,11 1) Naturally microencapsulatedÐstable at room temperature and can be stored unrefrigerated for long periods without loss of viable organisms. 2) Tolerates heat, stomach acid and bile, allowing it to successfully travel into the lower bowel. 3) Non-pathogenic, has only beneficial effects on its host. Has similar characteristics as acidophilus: prefers a mild acid environment; produces lactic acid, digestive enzymes, etc. 4) Readily multiplies in the human gut. In the stomach, the spore coat absorbs moisture and begins to swell. Upon reaching the small intestine, the bacteria cells germinate and begin to multiply, doubling in number every 30 minutes. 5) Produces enzymes which help digest protein, fats and carbohydrates. These enzymes include lactose, the enzyme that digests milk sugar.12 6) Creates a favorable environment (mildly acidic) in the gut for other friendly bacteria to thrive. Prevents overgrowth of pathogenic organisms. 7) Produces lactic acid in the form of L- lactic acid only. The last point is especially important. Lactic acid occurs in the form of three isomers (substances with identical molecular structures that have different shapes): L-lactic acid, D-lactic acid and DL-lactic acid. The D form is metabolized slowly, and can produce acidosis in the system. (Infants have a particularly difficult time metabolizing D-lactic acid.)11,13 DL-Lactic acid, the kind acidophilus makes, may be converted to either D or L. The L form is the one we want. L. sporogenes is a "homofermenter," it makes L-lactic acid exclusively. Lactic acid keeps the gut mildly acidic. This acidity is essential for the gut to be a hospitable home for friendly bacteria, and stops the growth of the unwelcome disease-causing bacteria. L. sporogenes has only one drawback. It is a transient visitor that does not permanently colonize in the digestive tract. A study on the retention of L. sporogenes found no bacteria in the feces six days after consumption was discontinued.14 L. Sporogenes-Results from Clinical Studies L. Sporogenes is used extensively in Japan and approved by the Japanese equivalent of the FDA. L. sporogenes has been given to hospital patients suffering from intestinal complaints such as gas and bloating due to abnormal fermentation, constipation, diarrhea and indigestion. (These problems often occur after surgery or chemotherapy.) A total of 16 clinical reports are on record in Japanese hospitals, documenting 293 case of digestive complaints treated with L. sporogenes.15 The overall improvement rate is an impressive 86 percent. Results are typically seen within four to five days. L. sporogenes has also been used with success to clear up diarrhea in newborns.16 Like other lactobacilli, L. sporogenes lowers blood cholesterol. (Lactobacilli break down cholesterol and bile salts in the intestinal tract.) Researchers at a hospital in New Delhi, India gave L. sporogenes tablets to 20 patients with high cholesterol for twelve weeks.17 Total cholesterol levels were substantially reduced, along with LDL cholesterol, and the beneficial HDL rose slightly. The popularity of L. sporogenes in other countries as an ideal friendly bacteria supplement will no doubt be soon matched in the U.S. This microscopic helper for intestinal health is now sold in probiotic products under the name "Lactospore®." References 1. Gandhi, A.B., Nagarathnam, T. Probiotics in veterinary use. Poultry Guide 1990;27(3):43-47. 2. Brennan, M., Wanismail, B., Ray, B. Prevalence of viable Lactobacillus acidophilus in dried commercial products. Journal of Food Protection 1983;46(10):887-92. 3. Gilliland, S.E., Speck, M.L. Enumeration and identity of lactobacilli in dietary products. Journal of Food Protection 1977;40(11):760-62. 4. Dalton, R.H. The limit of human Life, and how to live long. JAMA 1893;20:599-600. 5. Shahani, K.M., Ayebo, A.D. Role of dietary lactobacilli in gastrointestinal microecology. American Journal of Clinical Nutrition 1980;33:2448-57. 6. Metchnikoff, E.. Prolongation of Life. New York: G.P. Putnam Sons;1908. 7. Donaldson, R.M. Normal Bacterial populations of the intestine and their relation to intestinal function. New Eng. J. Med. 1964;270(18):938-45. 8. Jensen, B. Tissue Cleansing Through Bowel Management. Escondido, CA: publ. by Bernard Jensen, D.C.;1980. 9. Schauss, A.G. Lactobacillus acidophilus: method of action, clinical application, and toxicity data. Journal of Advancement in Medicine 1990;3(3):163-78. 10. 'General InformationÐLactospore®' 1996; Sabinsa Corporation: Piscataway, NJ. 11. Gandhi, A.B. Lactobacillus sporogenes, An Advancement in Lactobacillus Therapy. The Eastern Pharmacist August 1998:41-44. 12. Kim, Y.M., Lee, J.C., Choi, Y.J., Yang, H.C. Studies on the production of beta galactosidase by lactobacillus sporogenes. Properties and application of beta galactosidase. Korean J. Appl. Microbiol. Bioeng. 1985;13(4):355-60. 13. Oh, MS. D-Lactic acidosis in a man with short bowel syndrome. New Eng J Med 1979;31(5):249-52. 14. Hashimo, K. et. al. New Drugs and Clinics 1964;13(9):53-66. 15. 'Abstracts of papers on the clinical studies of Lacbon' Unpublished data. 16. Dhongade, R.K., Anjaneyule, R. Lactobacillus sporogenes (Sporlac) in Neonatal diarrhea. Unpublished data. 17. Mohan, J.C., Arora, R., Khaliullah, M. Preliminary observations on effect of Lactobacillus sporogenes on serum lipid levels in hypercholesterolemic patients. Indian J. Med. Res. 1990;92(B):431-32.
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