Search Term: " Chiin "
Chitosan
Date:
June 19, 2008 04:06 PM
Many natural health practitioners are looking at chitin as a possible weight-loss tool in a diet program. While still under study, proponents of it have helped this natural product and formulations made from it popular. Those seeking to lose weight efficiently are buying this product in droves. Manufacturers and marketers of chitin have seen great sales growth in Japan and the United States in recent years. Chitin is a positively charged polysaccharide that comes from an animal source. This source is shellfish in the form of shrimp, crab and lobster. A polysaccharide is a string of sugar molecules found in the outer shell of these crustaceans. Chitin is also found in marine coral and the outer shells of certain insects, such as beetles and ants. Chitin shares chemical similarities with cellulose and starch, which are plant fibers. The weight-loss benefits of chitin are in its binding properties. Some researchers believe that the positively charged polysaccharides attract negatively charged bile acids and free fatty acids. These acids are now bound by the positively charged chitin and therefore are not absorbed into a person's system. The result is the prevention of an increase in dietary fat, which puts the pounds on a person's frame. Some evidence from studies does suggest that chitin breaks down in the stomach and changes to a gel. Some researchers believe this is where the binding takes place as this gel traps fats and cholesterols. This process is believed to occur in the intestine, where chitin prevents the fat from becoming absorbed and digested. All types of fiber are beneficial for preventing the absorption of fat into the body, at least to some degree. Studies show that chitin, as an amino polysaccharide fiber may do this to a greater degree. Some proponents believe chitin has the capacity to expel up to four times its weight in fat. Some claim it binds 10 times its weight in fat and does this better than any other kind of fiber. Some believe chitin works best when used in conjunction with a high-fat meal. If it's going to be one of those high-fat intake days, they say taking chitin can help you counter the fat. Taking chitin may help bind the fat molecules and take them through your system until they're eliminated. However, chitin does not bind carbohydrates, protein, or alcohol. Over-indulgence in them, even with chitin added to your diet, may mean you will still put on weight. Because chitin is a non-digestible, non-absorbable fiber, it acts as a carrier. It doesn't absorb into your body as other foods can. It helps carry harmful fats away through its binding capabilities before they have a chance to settle in. Studies suggest chitin may do this and help improve blood cholesterol levels as it goes about its work. Chitin is a calorie-free fiber supplement. A product that is abundantly available, it is even used in food manufacturing as an edible film to protect foods from spoiling. It is often found at a reasonable cost and is a product known for having few side effects. One caveat with chitin is that those allergic to shellfish should not consume chitin. In addition, pregnant women should not take chitin products because of a possible reduction in calcium and vitamin D absorption. Of course, any weight-loss program needs to rely on healthy foods and exercise in addition to any weight-loss supplements. It's all part of an overall healthy approach to losing weight. Along with its possible benefits as a weight-loss tool chitin has other benefits. It is used in the manufacture of surgical thread. Being biodegradable, it dissolves over time as a wound heals. It also has properties that allow for its use as a wound-healing agent. Studies continue in the uses of chitin as a weight-loss product. As a natural product, readily available, diet supplement manufacturers strive to make innovative products from it. Their focus is to further research chitin so they can use it to help those striving to take control of their weight.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1822) Loose Weight By Cutting Dietary Fat Absorption
Date:
December 08, 2007 06:24 PM
You can lose weight by cutting dietary fat absorption, although in order to understand the need for this you have to appreciate the effect that fat has on your weight. Not only fat, but any form of calories. The word ‘calorie’ appears to have a bad press, and there have been a lot of ill informed comments made about calories and whether calorie controlled diets are effective or not. Quite frankly, it is all said in ignorance. Whether you agree or not, the calorie is a measurement of energy and the calorie content of foods is what is calculated to be the energy value of these foods. Once inside your body, that energy is either used up or converted to body mass. It is not necessarily converted to fat, since that extra weight could be in the form of muscle tissue. However, it is converted to body mass and so you can put on weight. The basic equation is that if you take in more energy than you use, then you add weight, and if you use more energy than you take in, then you lose weight. It is slightly more complex than that, but it is basically true. That does not mean that if you eat a pound of dripping (the fat that drips off cooking meat) you will add a pound of weight. It is the calorific value of the dripping in terms of energy, whether measured in calories or in joules, that is the relevant factor, and if that is 4000 calories, which is about average for various types of dripping, then if you use up 4001 calories in exercise, you can safely spread your pound of lard on toast and eat it without putting on weight (you will have also to use up the calories in the toast). It is the calorie equation that is important, and if this is negative then you will lose weight. You have to: it is a law of science! Whether your calories are in the form of cookies, candies, avocados (loads of them) or dripping, it is all the same. A meat calorie is the same as a vegetarian or vegan calorie. If you eat more than you use you put on weight. Different foods contain different quantities of energy, or calories. If you buy a Big Mac you eat 570 calories, and 5 from your Super Pepsi. If the guy next to you has an English Muffin, he will have 140 calories. However, if he then goes home and slouches on the sofa watching TV and you go to the gym for a serious workout, he is liable to put on weight and you lose it. It’s all in the equation! However, you don’t just use calories in exercise. Your metabolism is also important. In fact 65% - 75% of the calories you use in a day are used up by the body at rest: the metabolism that takes place 24/7 to keep you alive. The heartbeat, breathing and brain activity for example, all use up energy. So not all is doom and gloom, and you can burn up these calories even while you are sleeping. However, there is another way to prevent the fat you eat from turning into weight. (Incidentally, if you exercise a lot, that weight will likely be in muscle mass, but if not then it will certainly be fat). You have a clue to the way that can be done in the first sentence of this article: ‘dietary fat absorption’. If the fat is not absorbed into the body, then it is not available to be metabolized into body fat. It will pass through the body unchanged. It is not the fat you consume that makes you gain weight, but the amount of that fat absorbed through your intestines. But how is it possible to selectively prevent the fat in your diet from being emulsified by the bile and absorbed through the intestinal wall? By means of chitosan. This is a fiber that absorbs part of the fat from the food you have eaten and hides it away from your digestive system. It cannot be broken down into sugars and then into fat to add to your unwanted weight. However, because it works after your meal, you get to eat what you want – that ‘finger lickin’ good’ stuff you love, but don’t suffer the consequences of failing to exercise to work it off. It’s like you just ate lettuce without the fried chicken with the crispy fatty skin. So what is this miracle substance, chitosan? Biologists would recognize the name as being associated with chitin, the acetyl-glucosamine polymer that forms the carapaces, or shells, of crabs, lobsters and other marine shellfish. Chitosan is formed by deacetylating the chitin and is mainly used to enhance the growth of plants, and also as a filtration aid. So what does it do to help to remove some of the fat from your diet after you have eaten it? The mechanism by which it does this is not fully understood, and in fact is still disputed in some quarters. However, the proof of the pudding is in the eating and it appears to act according to the claims. There are two possible mechanisms, one of which is connected with the deacetylation of the chitin molecule. Because of this, the resultant chitosan molecule has cationic groups on the polymer chain. Cations are positively charged, and can react with acids, not the least of which are the bile acids that break down lipids (fats) to render them into a form suitable for absorption. It is possible for the chitosan to react with the bile acids and prevent them from breaking down the fats into a condition that enables them to be passed through the intestinal wall. However, it has also been proposed that dietary fibers work by increasing the thickness of the boundary layer of the intestine through which the fats would have to pass. This would have the effect of reducing the lipid uptake. It is also possible that since chitosan is a fibrous substance, it attracts the fats through its charge and absorbs them into a swelling ball of fats and fiber that is not only impermeable by the bile acids, but also passes through the intestinal tract unchanged and eventually excreted. In fact, there is not proof for any of these projected mechanisms, and all are theoretically possible. The fact is that it appears to work, but must be taken for several weeks for the effects to be noticeable. It is possible to lose weight by dietary fat absorption, and whatever mechanism is used by chitosan, it is well worth trying if you like your fatty foods but also want to lose weight. Combine chitosan with a good exercise regime and you might find that you can control your weight whatever you eat. Chitosan is available over the counter at any health food store.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=1650) REFERENCES
Date:
June 25, 2005 08:13 PM
REFERENCES 1 a. The Surgeon General’s “Nutrition and Health Report.” b. The Centers for Disease Control and Prevention’s “National Health and Examination Survey (NHANES III)” c. The National Academy of Science’s. Diet and Health Report: Health Promotion and Disease Objectives (DHHS Publication No. (PHS) 91-50213, Washington, DC: US Government Printing Office, 1990). e. Dietary Guidelines for Americans. 2 Rolls BJ. Carbohydrates, fats, and satiety. Am J Clin Nutr 1995; 61(4 Suppl):960S-967S. 3 McDowell MA, Briefel RR, Alaimo K, et al. Energy and macronutrient intakes of persons ages 2 months and over in the United States: Third National Health and Nutrition Examination Survey, Phase 1:1988-91. Advance data from vital and health statistics of the Centers for Disease Control and Prevention; No. 255. Hyattsville, Maryland: National Center for Health Statistics; 1994. 4 Center for Science in the Public Interest and McDonald’s Nutrition and You—A guide to Healthy Eating at McDonald’s: McDonald’s Corp,1991. 5 Bray GA. Appetite Control in Adults. In: Fernstrom JD, Miller GD eds. Appetite and Body Weight Regulation. Boca Raton: CRC Press, 1994:1-92. 6 Michnovicz JJ. How to Reduce Your Risk of Breast Cancer. New York: Warner Book Inc. 1994:54. 7 Carcinogens and Anticarcinogens in the Human Diet. National Research Council Report, National Academy of Sciences, 15 Feb. 1996. 8 Van Tallie TB. Obesity: adverse effects on health and longevity. Am J Clin Nutr 1979:32: 2723-33. 9 Somer E, M.A. R.D. Nutrition for Women. New York: Henry Hold and Company, 1993:273. 10 Swaneck GE, Fishman J. Covalent binding of the endogenous estrogen 16A-hydroxyestrone to estradiol in human breast concer cells: characterization and intranuclear localization. Proc Natl Acad Sci USA 1988:85;7831-5. 11 Colditz GA. Epidemiology of breast cancer. Findings from the nurses’ health study. Cancer1993;714:1480-9. 12 Hennen WJ. Breast Cancer Risk Reduction. The effects of supplementation with dietary indoles. Unpublished report 1992. 13 Deslypere BJ. Obesity and cancer. Metabolism 1995;44(93):24-7. 14 Somer E, M.A. R.D. Nutrition for Women. New York: Henry Hold and Company, 1993:281. 15 Whittemore AS, Kolonel LN, John M. Prostate cancer in relation to diet, physical activity, and body size in blacks, whites, and Asians in the United States and Canada. J Natl Cancer Inst 1995;87(9):629-31. 16 Key T. Risk factors for prostate cancer. Cancer Survivor 1995;23:63- 77. 17 Kondo Y, Homma Y, Aso Y, Kakizoe T. Promotional effects of twogeneration exposure to a high-fat diet on prostate carcinogenisis in ACI/Seg mice. Cancer Res 1994;54(23):6129-32. 18 Wang Y, Corr JG, Taler HT, Tao Y, Fair WR, Heston WD. Decreased growth of established human prostate LNCaP tumors in nude mice fed a low-fat diet. J Natl Cancer Inst. 1995;87(19):1456-62. 19 Nixon DW. Cancer prevention clinical trials. In-Vivo 1994;8(5):713-6. 20 Key T. Micronutrients and cancer aetiology: the epidmiological evidence. Proceed Nutr Soc 1994;53(3):605-14. 21 Gorbach SL, Goldin BR. The intestinal microflora and the colon cancer connection. Reviews of Infectious Diseases 1990;12(Suppl 2):S252-61. 22 Shrapnel WS, Calvert GD, Nestel PJ, Truswell AS. Diet and coronary heart disease. The National Heart Foundation of Australia. Med J Australia. 1995;156(Suppl):S9-S16. 23 Ellis JL, Campos-Outcalt D. Cardiovascular disease risk factors in native Americans: a literature review. Am. J. Preventive Med 1994;10(5):295-307. 24 DiBianco R. The changing syndrome of heart failure: an annotated review as we approach the 21st century. J. Hypertension 1994; 12(4 Suppl):S73- S87. 25 Van Itallie TB. Obesity: adverse effects on health and longevity. Am J Clin Nutr 1979;32(suppl):2723-33. 26 Kestin M, Moss R, Clifton PM, Nestel PJ. Comparative effects of three cereal brans on plasma lipids, blood pressure and glucose metabolism in mildly hyper-cholesterolemic men. Am J Clin Nutr 1990;52(4):661-6. 27 Story JA. Dietary fiber and lipid metabolism. In: Spiller GA, Kay RM. eds. Medical Aspects of Dietary Fiber. Penun Medical; New York, 1980, p.138. 28 Stein PP, Black HR. The role of diet in the genesis and treatment of hypertension. Med. Clin. North America. 1993;77(4):831-47. 29 Olin JW. Antihypertensive treatment in patients with peripheral vascular disease. Cleve. Clin. J. Medicine. 1994;61(5):337-44. 30 Tinker LF. Diabetes Mellitus—a priority health care issue for women. J. Am. Dietetic Association. 1994;94(9):976-85. 31 Gaspard UJ, Gottal JM, van den Brule FA. Postmenopausal changes of lipid and glucose metabolism: a review of their main aspects. Maturitas. 1995;21(3):71-8. 32 Coordt MC, Ruhe RC, McDonald RB. Aging and insulin secretion. Proc. Soc. Exp. Biology and Medicine. 1995;209(3):213-22. 33 Felber JP. From Obesity to Diabetes. Pathophysiological Considerations. Int. Journal of Obesity 1992;16:937-952. 34 Gillum RF. The association of body fat distribution with hypertension, hypertensive heart disease, coronary heart disease, diabetes, and cardiovascular risk factors in men and women age 18-79. J Chronic Diseases 1987;40:421-8. 35 Haffner SM, Stern MP, Hazuda HP, et al. Role of obesity and fat distribution in non-insulin-dependent diabetes mellits in Mexican Americans and non- Hispanic whites. Diabetes Care 1986;9:153-61. 36 Bonadonna RC, deFronzo RA. Glucose metabolism in obesity and type 2 diabetes. Diabetes and Metabolism. 1991;17(1 Pt. 2):12-35. 37 Shoemaker JK, Bonen A. Vascular actions of insulin in health and disease. Canadian J. of Applied Physiology. 1995;20(2):127-54. 38 Resnick LM. Ionic Basis of Hypertension, Insulin Resistaince, Vascular Disease, and Related Disorders. The Mechanism of ‘Syndrome X’. Am. J. Hypertension. 1993;6(suppl):123S-134S. 39 Trautwein EA. Dietetic influences on the formation and prevention of cholesterol gallstones. Z. Ernahrugswiss. 1994;33(1):2-15. 40 Cicuttini FM, Spector TD. Osteoarthritis in the aged. Epidemiological issues and optimal management. Drugs and Aging. 1995;6(5):409-20. 41 Melnyk MG, Wienstein E. Preventing obesity in black women by targeting adolescents: a literature review. J Am. Diet. Association. 1994;94(4):536-40. 42 Robinson BE, Gjerdingen Dk, Houge DR. Obesity: a move from traditional to more patient-oriented management. J. Am. Board of Family Practice. 1995;8(2):99-108. 43 Dulloo AG, Miller DS. Reversal of Obesity in the Genetically Obese fa/fa Zucker Rat with an Ehpedrine/Methylxanthines Thermogenic Mixture. J. Nutrition. 1987;117:383-9. 44 Dulloo AG, Miller DS. The thermogenic properties of ephedrin/methylxanthine mixtures: animal studies. Am J Clinical Nutr. 1986;43:388-394. 45 Richelsen B. Health risks of obesity. Significance of the regional distri-bution of adipose tissue. Ugeskr. Laeger. 1991;153(13):908-13. 46 Lissner L, Heitmann BL. Dietary fat and obesity: Evidence from epidemiology. European J. Clinical Nutrition. 1995;49(2):79-90. 47 Lissner L, Heitmann BL. The dietary fat: Carbohydrate ratio in relation to body weight, Current Opinion in Lipidology. 1995;6(1):8-13. 48 Ravussin E. Energy metabolism in obesity. Studies in the Pima Indians. Diabetes Care. 1993;16(1):232-8. 49 O’Dea K. Westernisation, insulin resistance and diabetes in Australian aborigines. Med J. Australia. 1991;155(4):258-64. 50 Bailey C. Fit or Fat . Houghton Mifflen, Boston, 1991. 51 McCarty MF. Optimizing Exercise for Fat Loss. Unpublished report. 52 Weinsier RL, Schutz Y, Bracco D. Reexamination of the relationship of resting metabolic rate and fat-free mass and the the metabolically active components of fat-free mass in humans. Am. J. Clinical Nutrition. 1992;55(4):790-4. 53 Evans WJ. Exercise, nutrition and aging. J. Nutrition. 1992;122(3 suppl):796-801. 54 Schlicker SA, Borra ST, Regan C. The weight and fitness status of United States children. Nutrition Reviews. 1994;52(1):11-7. 55 Raben A, Jensen ND, Marckmann P, Sandstrom B and Astrup A. Spontaeous weight loss during 11 weeks’ ad libitum intake of a low fat/high fiber diet in young, normal weight subjects. Stockholm Press. 1995;916-23. 56 Blundell JE, Cotton JR, Delargy H, Green S, Greenough A, King NA, Lawton, CL. The fat paradox: fat-induced satiety signals versus high fat overconsumption. Short Communication 1995:832-835. 57 Reinhold RB. Late results of gastric bypass surgery for morbid obesity. J Am Coll Nutr 1994;13(4):307-8. 58 McCredie M, Coates M Grulich A. Cancer incidence in migrants to New South Wales (Australia) from the Middle East, 1972-1991. Cancer Causes Control 1994:5(5):414-21. 59 Schiff ER, Dietschy JM. Steatorrhea Associated with Disordered Bile Acid Metabolism. Am. J. Digestive Diseases. 1969;14(6) 60 Nauss JL , Thompson JL and Nagyvary J. The binding of micellar lipids to Chitosan. Lipids. 1983;18(10):714-19. 61 Braconnot H, Sue la natrue ces champignons. Ann Chim Phys 1811;79:265. 62 Odier A. Memoire sur la composition chemique des parties cornees des insectes. Mem Soc Hist Nat Paris 1823;1:29. 63 Johnson EL, Peniston QP. Utilization of shellfish waste for chitin and Chitosan production. Chp 19 In: Chemistry and Biochemistry of Marine Food Products. Martin RE, Flick GJ, Hebard CE and Ward DR (eds.) 1982. p.415-. AVI Publishing Co., Westport, CT. 64 Shahram H. Seafood waste: the potential for industrial use. Kem Kemi 1992;19(3),256-8. 65 Rouget C. Des substances amylacees dans le tissue des animux, specialement les Articules (Chitine). Compt Rend 1859;48:792. Commission on Natural Health Products. 1995 67 Peniston QP and Johnson EL. Method for Treating an Aqueous Medium with Chitosan and Derivatives of Chitin to Remove an Impurity. US Patent 3,533,940. Oct. 30:1970. 68 Poly-D-Glucosamine (Chitosan); Exemption from the Requirement of a Tolerance. Federal Register. 1995;60(75):19523-4. Rules and Regulations. Environmental Protection Agency 40 CFR Part 180. April, 19, 1995. 69 Arul J. “Use of Chitosan films to retard post-harvest spoilage of fruits and vegetables,” Chitin Workshop. ICNHP, North Carolina State University, Raleigh, NC. 70 Karlsen J, Skaugrud O. “Excipient properties of Chitosan,” Manufacturing Chemist. 1991;62:18-9. 71 Winterowd JG, Sandford PA. Chitin and Chitosan. In: Food Polysaccharides and their Applications. Ed: Stephen AM. Marcel Dekker 1995. 72 Chitin Workshop. ICNHP, North Carolina State University, Raleigh, NC. 73 Advances in Chitin and Chitosan. Eds: CJ Brine, PA Sandford, JP Zikakis. Elsevier Applied Science. London. 1992. 74 Chitin in Nature and Technology. Eds: R Muzzarelli, C Jeuniaux, GW Gooday. Plenum Press, New York. 1986. 75 Zikakis, JP. Chitin, Chitosan and Related Enzymes. Academic Press, Inc. 1984. 76 Abelin J and Lassus A. Fat binder as a weight reducer in patients with moderate obesity. ARS Medicina, Helsinki, Aug- October, 1994. 77 Kanauchi O, Deuchi K, Imasato Y, Shizukuishi M, Kobayashi E. Increasing effect of a Chitosan and ascorbic acid mixture on fecal dietary fat excretion. Biosci Biotech Biochem 1994;58(9):1617-20. 78 Maezaki Y, Tsuji K, Nakagawa Y, et al. Hypocholesterolemic effect of Chitosan in adult males. Biosci Biotchnol Biochem1993;57(9):1439-44. 79 Kobayashi T, Otsuka S, Yugari Y. Effect of Chitosan on serum and liver cholesterol levels in cholesterol-fed rats. Nutritional Rep. Int., 1979;19(3):327-34. 80 Sugano M, Fujikawa T, Hiratsuji Y, Hasegawa Y. Hypocholesterolemic effects of Chitosan in cholesterol-fed rats. Nutr Rep. Int. 1978;18(5):531-7. 81 Vahouny G, Satchanandam S, Cassidy M, Lightfoot F, Furda I. Comparative effects of Chitosan and cholestryramine on lymphatic absorption of lipids in the rat. Am J Clin Nutr, 1983;38(2):278-84 82 Suzuki S, Suzuki M, Katayama H. Chitin and Chitosan oligomers as hypolipemics and formulations containing them. Jpn. Kokai Tokkyo Koho JP 63 41,422 [88,422] 22 Feb1988. 83 Ikeda I, Tomari Y, Sugano M. Interrelated effects of dietary fiber on lymphatic cholesterol and triglyceride absorption in rats. J Nutr 1989;119(10):1383- 7. 84 LeHoux JG and Grondin F. Some effects of Chitosan on liver function in the rat. Endocrinology. 1993;132(3):1078-84. 85 Fradet G, Brister S, Mulder D, Lough J, Averbach BL. “Evaluation of Chitosan as a New Hemostatic Agent: In Vitro and In Vivo Experiments In Chitin in Nature and Technology. Eds: R Muzzarelli, C Jeuniaux, GW Gooday. Plenum Press, New York. 1986. 86 Malette W, Quigley H, Gaines R, Johnson N, Rainer WG. Chitosan A New Hemostatic. Annals of Thorasic Surgery. 1983;36:55. 87 Malette W, Quigley H, Adickes ED. Chitosan effect in Vascular Surgery, Tissue Culture and Tissue Regeneration. In R Muzzarelli, C Jeuniaux, GW Gooday, Eds: Chitin in Nature and Technology. Plenum Press, New York. 1986. 88 Okamoto Y, Tomita T, Minami S, et al. Effects of Chitosan on experimental abscess with Staphylococcus aureus in dogs. J. Vet. Med., 1995;57(4):765-7. 89 Klokkevold PR, Lew DS, Ellis DG, Bertolami CN. Effect of Chitosan on lingual hemostasis in rabbits. Journal of Oral-Maxillofac-Surg, 1991;Aug. 49(8):858-63. 89 Surgery, Tissue Culture and Tissue Regeneration. In Chitin in Nature and Technology. Eds: R Muzzarelli, C Jeuniaux, GW Gooday. Plenum Press, New York. 1986. 90 Hiroshi S, Makoto K, Shoji A, Yoshikazu S. Antibacterial fiber blended with Chitosan. Sixth International Conference on Chitin and Chitosan. Sea Fisheries Institute, Gdynia, Poland. August 1994;16-19. 91 Shimai Y, Tsukuda K, Seino H. Antiacne preparations containing chitin, Chitosan or their partial degradation products. Jpn. Kikai Tokkyo Koho JP 04,288,017 [92,288,017] 13 Oct 1992. 92 Suzuki K, Okawa Y, Suzuki S, Suzuki M. Candidacidal effect of peritoneal exudate cells in mice administered with chitin or Chitosan: the role of serine protease in the mechanism of oxygen-independent candidacidal effect. Microbiol Immunol. 1987;31(4):375-9. 93 Sawada G, Akaha Y, Naito H, Fujita M. Synergistic food preservatives containing organic acids, Chitosan and citrus seed extracts. Jpn, Kokai Kokkyo Koho JP 04 27,373 [92 27,373] 30 Jan 1992. 94 Min H-K, Hatai K, Bai S. Some inhibitory effects of Chitosan on fishpathogenic oomycete, Saprolegnia parasitic. Gyobyo Kenkyu, 1994;29(2):73-4. 95 Nelson JL, Alexander JW, Gianotti L, Chalk CL, Pyles T. The influence of dietary fiber on microbial growth in vitro and bacterial translocation after burn injury in mice. Nutr 1994;10(1):32-6. 96 Ochiai Y, Kanazawa Y. Chitosan as virucide. Jpn Kokai Tokkyo Koho 79 41,326. 97 Hillyard IW, Doczi J, Kiernan. Antacid and antiulcer properties of the polysaccharide Chitosan in the rat. Proc Soc Expl Biol Med 1964; 115:1108-1112. 98 Shibasaki K, Sano H, MatsukuboT, Takaesu Y. pH response of human dental plaque to chewing gum supplemented with low molecular Chitosan. Bull- Tokyo-Dent-Coll, 1994:35(2): 61-6. 99 Kato H, Okuda H. Chitosan as antihypertensive. Jpn. Kikoi Tokyo Koho JP 06 56,674 [94 56,674] 100 Kato H, Taguchi T. Mechanism of the rise in blood pressure by sodium chloride and decrease effect of Chitosan on blood pressure. Baiosaiensu to Indasutori 1993;51(12):987-8. 101 Muzzarelli R, Biagini G, Pugnaoni A, Filippini O, Baldassarre V, Castaldini C, and Rizzoli C. Reconstruction of Periodontal Tissue with Chitosan. Biomaterials. 1989;10:598-603. 102 Sapelli P, Baldassarre V, Muzzarelli R, Emanuelli M. Chitosan in Dentistry. In Chitin in Nature and Technology. Eds: R Muzzarelli, C Jeuniaux, GW Gooday. Plenum Press, New York. 1986. 103 Borah G, Scott G, Wortham K. Bone induction by Chitosan in endochrondral bones of the extremities. In Advances in Chitin and Chitosan. Eds: CJ Brine, PA Sandford, JP Zikakis. Elsevier Applied Science. London. 1992. 104 Ito F. Role of Chitosan as a supplementary food for osteoporosis. Gekkan Fudo Kemikaru, 1995;11(2):39-44. 105 Nakamura S, Yoshioka T, hamada S, Kimura I. Chitosan for enhancement of bioavailability of calcium. Jpn. Kokai Tokkyo Koho JP 07 194,316 [95 194,316] 01 Aug 1995. 106 Maekawa A, Wada M. Food Containing chitin or its derivatives for reduction of blood and urine uric acid. Jpn. Kokai Tokkyo Koho JP 03 280,852 [91 280,852], 11 Dec 1991. 107 Weisberg M, Gubner R. Compositions for oral administration comprising Chitosan and a pharmaceutically acceptable carrier. Antacid preparations for alleviating gastric hyperacidity. U.S. patent 3257275 108 Kanauchi O, Deuchi K, Imasato Y, Shizukuishi M, Kobayashi E. Mechanism for the inhibition of fat digestion by Chitosan and for the synergistic effect of ascorbate. Biosci Biotech Biochem1995;59(5):786-90. 109 McCausland CW. Fat Binding Properties of Chitosan as Compared to Other Dietary Fibers. Private communication. 24 Jan1995. 110 Deuchi K, Kanauchi O, Imasato Y, Kobayashi E. Biosci Biotech Biochem. 1994:58,1613-6. 111 Ebihara K, Schneeman BO. Interaction of bile acids, phospholipids, cholesterol and triglyceride with dietary fibers in the small intestine of rats. J Nutr 1989;119(8):1100-6. 112 Weil A, M.D. Natural Health Natural Medicine: Boston: Houghton Mifflin, 1990:182. 113 Chen Y-H, Riby Y, Srivastava P, Bartholomew J, Denison M, Bjeldanes L. Regualtion of CYP1A1 by indolo[3,2-b]carbazole in murine hepatoma cells. J Biol Chem 1995;270(38):22548-55. 114 Intestinal Absorption of metal ions and chelates. Ashmead HD, Graff DJ, Ashmead HH. Charles C Thomas, Springfield, IL 1985. 115 Nutrient Interactions. Bodwell CE, Erdman JW Jr. Marcel Dekker New York 1988. 116 Heleniak EP, Aston B. Prostaglandins, Brown Fat and Weight Loss. Medical Hypotheses 1989;28:13-33. 117 Connor WE, DeFrancesco CA, Connor SL. N-3 fatty acids from fish oil. Effects on plasma lipoproteins and hypertriglyceridemic patients. Ann NY Acad Sci 1993;683:16-34. 118 Conte AA. A non-prescription alternative in weight reduction therapy. The Bariatrician Summer 1993:17-19. 119 McCarty MF. Inhibition of citrate lyase may aid aerobic endurance. Unpublished manuscript. 120 Bray GA. Weight homeostasis. Annual Rev Med 1991;42:205-216. 121 Dulloo AG, Miller DS. The thermogenic properties of Ephedrin/Methylxanthine mixtures: Human studies. Intl J Obesity 986;10:467-481. 122 Arai K, Kinumaki T, Fujita, T. Bulletin Tokai Regional Fisheries Res Lab. 1968;No. 56. 123 Bough WA. Private communication. 124 Freidrich EJ, Gehan, EA, Rall DP, Schmidt LH, Skipper HE. Cancer Chemotherapy Reports 1966;50(4):219-244. 125 A Drovanti, AA Bignamini, AL Rovati. Therapeutic activity of oral glucosamine sulfate in osteoarthritis: A placebo-controlled double-blind investigation. Clinical Therapeutics 1980;3(4):260-272. 126 K Deuchi, O Kanauchi, M Shizukuishi, E Kobayashi. Continuous and massive intake of Chitosan affects mineral and fat-soluble vitamin status in rats fed on a high-fat diet. Biosci. Biotech. Biochemistry. 1995;59(7):1211-6. 127 . BesChitin W in Chitin Wound Healing (video), Unitika Corporation, April 1992.
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=507) CHITOSAN: The Fiber that Binds Fat
Date:
June 25, 2005 07:55 PM
Overview Chitosan is a natural product that inhibits fat absorption. It has the potential to revolutionize the process of losing weight and by so doing, reduce the incidence of some of the most devastating Western diseases we face today. Chitosan is indigestable and non-absorbable. Fats bound to chitosan become nonabsorbable thereby negating their caloric value. Chitosan-bound fat leaves the intestinal tract having never entered the bloodstream. Chitosan is remarkable in that it has the abilty to absorb an average of 4 to 5 times its weight in fat.60 The same features that allow chitosan to bind fats endow it with many other valuable properties that work to promote health and prevent disease. Chitosan is a remarkable substance whose time has come.
Chitin, the precursor to Chitosan, was first discovered in mushrooms by the French professor Henri Braconnot in 1811.61 In the 1820’s chitin was also isolated from insects.62 Chitin is an extremely long chain of N-acetyl-D-glucoseamine
FIGURE 2. glucoseamine units. Chitin is the most abundant natural fiber next to cellulose and is similar to cellulose in many respects. The most abundant source of chitin is in the shells of shellfish such as crab and shrimp. The worldwide shellfish harvest is estimated to be able to supply 50,000 tons of chitin annually.63 The harvest in the United States alone could produce over 15,000 tons of chitin each year.64 Chitin has a wide range of uses but that is the subject of another book. Chitosan was discovered in 1859 by Professor C. Rouget.65 It is made by cooking chitin in alkali, much like the process for making natural soaps. After it
----------------------------------
---------------------------------- is cooked the links of the chitosan chain are made up of glucosamine units. Each glucosamine unit contains a free amino group. These groups can take on a positive charge which gives chitosan its amazing properties. The stucture of chitosan is represented schematically in Figure 2. Research on the uses of chitin and Chitosan flourished in the 1930s and early 1940s but the rise of synthetic fibers, like the rise of synthetic medicines, overshadowed the interest in natural products. Interest in natural products, including chitin and chitosan, gained a resurgence in the 1970s and has continued to expand ever since. Uses of Chit osan Some of Chitosan's major uses—both Industrial and Health and Nutritional—are listed in Tables 5 and 6. Water Purification Chitosan has been used for about three decades in water purification processes. 67 When chitosan is spread over oil spills it holds the oil mass together making it easier to clean up the spill. Water purification plants throughout the world use chitosan to remove oils, grease, heavy metals, and fine particulate matter that cause turbidity in waste water streams. Fat Binding/ Weight Loss Like some plant fibers, chitosan is not digestible; therefore it has no caloric value. No matter how much chitosan you ingest, its calorie count remains at
------------------------------ fibers, chitosan’s unique properties give it the ability to significantly bind fat, acting like a “fat sponge” in the digestive tract. Table 7 shows a comparison of chitosan and other natural fibers and their ability to inhibit fat absorption. Under optimal conditions, Chitosan can bind an average of 4 to 5 times its weight with all the lipid aggregates tested.60 (NOTE: This assessment was made without the addition of ascorbic acid which potentiates this action even further.77 Studies in Helsinki have shown that individuals taking chitosan lost an average of 8 percent of their body weight in a 4-week period.76 Chitosan has increased oil-holding capacity over other fibers.108 Among the abundant natural fibers, chitosan is unique. This uniqueness is a result of chitosan’s amino groups which make it an acid absorbing (basic) fiber. Most natural fibers are neutral or acidic. Table 7 summarizes the in vivo effects in animals of various fibers on fecal lipid excretion. As can be seen from the results listed, ingestion of chitosan resulted in 5-10 times more fat excretion than any other fiber tested. D-Glucosamine, the building block of chitosan, is not able to increase fecal fat excretion. This is due to the fact that glucosamine is about 97 percent absorbed while chitosan is nonabsorbable. Fats bound to glucosamine would likely be readily absorbed along with the glucosamine. Chitosan, on the other hand, is not absorbed and therefore fats bound to chitosan can not be absorbed. Cholesterol Control Chitosan has the very unique ability to lower LDL cholesterol (the bad kind) while boosting HDL cholesterol (the good kind).78 Laboratory tests performed on rats showed that “chitosan depresses serum and liver cholesterol levels in cholesterol- fed rats without affecting performance, organ weight or the nature of the feces.”79 Japanese researchers have concluded that Chitosan “appears to be an effective hypocholesterolemic agent.”80 In other words, it can effectively lower blood serum cholesterol levels with no apparent side effects. A study reported in the American Journal of Clinical Nutrition found that Chitosan is as effective in mammals as cholestryramine (a cholesterol lowering drug) in controlling blood serum cholesterol without the deleterious side effects typical of cholestryramine. 81 Chitosan decreased blood cholesterol levels by 66.2 percent.82 It effectively lowered cholesterol absorption more than guar gum or cellulose.83 Laboratory test results indicated that a 7.5% chitosan formula maintained adequate cholesterol levels in rats, despite a dramatic increase in the intake of cholesterol. 84
(https://vitanetonline.com:443/forums/Index.cfm?CFApp=1&Message_ID=501) |