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16-September-2008 20:42:47 - Creatine supplements For the biochemistry and physiology of creatine, please see Creatine. Creatine supplements are athletic aids used to increase high-intensity athletic performance. Though researchers have known of the use of creatine as an energy source by skeletal muscles since the beginning of the 20th century, they were popularized as a performance-enhancing supplement in 1992. Contents 1 History of creatine supplements 2 Creatine and athletic performance 2.1 Creatine ethyl ester 3 Safety 4 Creatine and mental performance 5 References History of creatine supplements In 1912, Harvard University researchers Otto Folin and Willey Glover Denis found proof that ingesting creatine can dramatically boost the creatine content of the muscle1. In the late 1920s, after finding that the intramuscular stores of creatine can be increased by ingesting creatine in larger than normal amounts, scientists discovered creatine phosphate, and determined that creatine is a key player in the metabolism of skeletal muscle. The substance creatine is naturally formed in the vertebrates. While creatine's influence on physical performance has been well documented since the early twentieth century, it only recently came into public view following the 1992 Olympics in Barcelona. An August 7, 1992 article in The Times reported that Linford Christie, the gold medal winner at 100 meters, had utilized creatine prior to the Olympics, and an article in Bodybuilding Monthly named Sally Gunnell, gold medalist in the 400-meter hurdles, as another creatine user. Several medal-winning British rowers also used creatine during their preparations for the Barcelona games. At the time, low-potency creatine supplements were available in Britain, but creatine supplements designed for strength enhancement were not commercially available until 1993 when a company called Experimental and Applied Sciences EAS introduced the compound to the sports nutrition market under the name Phosphagen.2 Research conducted afterward showed that the consumption of high glycemic carbohydrates in conjunction with creatine increases creatine muscle stores and performance. 3 In 1998, MuscleTech Research and Development launched Cell-Tech, the first creatine-carbohydrate-alpha lipoic acid supplement. Alpha lipoic acid has been demonstrated to enhance muscle phosphocreatine levels and total muscle creatine concentrations. This approach to creatine supplementation was validated in a study performed in 2003.4 Another important event in creatine supplementation occurred in 2004 when the first creatine ethyl ester supplements were launched. Creatine ethyl ester CEE is becoming a widely used form of creatine, with many companies now carrying both creatine monohydrate-based supplements and CEE supplements, or combinations of both. Creatine and athletic performance September 2007 Pharmacology or the Pharmacology Portal may be able to help recruit one. If a more appropriate or portal exists, please adjust this template accordingly. Creatine is often taken by athletes as a supplement for those wishing to gain muscle mass bodybuilding. There are a number of forms but the most common are creatine monohydrate - creatine complexed with a molecule of water, and Creatine ethyl ester CEE. A number of methods for ingestion exist - as a powder mixed into a drink, or as a capsule or caplet. Once ingested, creatine is highly bioavailable, whether it is ingested as the crystalline monohydrate form, the free form in solution, or even in meat. Creatine salts will become the free form when dissolved in aqueous solution. Conventional wisdom recommends the consumption of creatine with high glycemic index carbohydrates, though research indicates that the use of high GI carbs in combination with protein is also beneficial.5 There is scientific evidence that taking creatine supplements can marginally increase athletic performance in high-intensity anaerobic repetitive cycling sprints, but studies in swimmers and runners have been less than promising, most likely because these activities are sustained at a given intensity and thus do not allow for significant intra-exercise synthesis of additional creatine phosphate molecules. Ingesting creatine can increase the level of phosphocreatine in the muscles up to 20%. It must be noted creatine has no significant effect on aerobic endurance, though it will increase power during aerobic exercise.6 Since body mass gains of about 1 kg can occur in a week's time, many studies suggest that the gain is simply due to greater water retention inside the muscle cells. However, studies into the long-term effect of creatine supplementation suggest that body mass gains cannot be explained by increases in intracellular water alone.7 In the longer term, the increase in total body water is reported to be proportional to the weight gains, which means that the percentage of total body water is not significantly changed. The magnitude of the weight gains during training over a period of several weeks argue against the water-retention theory. Also, research has shown that creatine increases the activity of satellite cells, which make muscle hypertrophy possible. Creatine supplementation appears to increase the number of myonuclei that satellite cells will 'donate' to damaged muscle fibers, which increases the potential for growth of those fibers. This increase in myonuclei probably stems from creatine's ability to increase levels of the myogenic transcription factor MRF4.89. In another study, researchers concluded that changes in substrate oxidation may influence the inhibition of fat mass loss associated with creatine after weight training when they discovered that fat mass did not change significantly with creatine but decreased after the placebo trial in a 12-week study on ten active men. The study also showed that 1-RM bench press and total body mass increased after creatine, but not after placebo.10 The underlying effect of Creatine on body composition if there is indeed one has yet to be determined, as another study with a similar timeframe suggests no effect on body composition, but had less overall emphasis on metabolic effects. 11 Creatine use is not considered doping and is not banned by the majority of sport-governing bodies. However, in the United States, the NCAA recently ruled that colleges could not provide creatine supplements to their players, though the players are still allowed to obtain and use creatine independently. Creatine ethyl ester Main article: Creatine ethyl ester CEE is a form of commercially available creatine touted to have higher absorption rates and a longer serum half-life than regular creatine monohydrate by several supplement companies. No peer-reviewed studies have emerged on creatine ethyl ester to conclusively prove these claims, however, a study presented at the 4th International Society of Sports Nutrition ISSN annual meeting demonstrated that the addition of the ethyl group to creatine actually reduces acid stability and accelerates its breakdown to creatinine. The researchers concluded that creatine ethyl-ester is inferior to creatine monohydrate as a source of creatine.12 As a supplement, the compound was developed, patented and licensed through UNeMed, the technology transfer entity of the University of Nebraska Medical Center.13 Safety Current studies indicate that short-term creatine supplementation in healthy individuals is safe.14 Small-scale, longer-term studies have been done and seem to demonstrate its safety.151617 There have been reports of muscle cramping with the use of creatine, though a study showed no reports of muscle cramping in subjects taking creatine-containing supplements during various exercise training conditions in trained and untrained endurance athletes.1819 The cause of the reported cramping by some users may be due to dehydration, and extra water intake is vital when supplementing with creatine. In addition, experiments have shown that creatine supplementation improved the health and lifespan of mice.20 Whether these beneficial effects would also apply to humans is still uncertain. Creatine and mental performance Creatine administration was shown to significantly improve performance in cognitive and memory tests in vegetarian individuals involved in double-blind, placebo-controlled cross-over trials.21 Vegetarian supplementation with creatine seems to be especially beneficial as they appear to have lower average body stores, since meat is a primary source of dietary creatine. 22 References ^ Folin O, Denis W. 1912. Protein metabolism from the standpoint of blood and tissue analysis. Third paper, Further absorption experiments with especial reference to the behavior of creatine and creatinine and to the formation of urea.. Journal of Biological Chemistry 12 1: 141-161. ^ Stoppani, Jim May, 2004, Creatine new and improved: recent high-tech advances have made creatine even more powerful. Here's how you can take full advantage of this super supplement, Muscle Fitness, http://findarticles.com/p/articles/mi_m0801/is_5_65/ai_n6005938. Retrieved on 5 February 2008 . ^ Green, AL; Hultman E, Macdonald IA, Sewell DA and Greenhaff PL 1996. Carbohydrate ingestion augments skeletal muscle creatine accumulation during creatine supplementation in humans.. American Journal of Physiology 271: E821-826. 14669930. ^ Burke, DG; Chilibeck PD, Parise G, Tarnopolsky MA, Candow DG. 2003-09-01. Effect of alpha-lipoic acid combined with creatine monohydrate on human skeletal muscle creatine and phosphagen concentration.. International Journal of Sport Nutrition and Exercise Metabolism 13 3: 294-302. Human Kinetics Publishers. 14669930. Retrieved on 2007-04-12. ^ Steenge, G.R.; Simpson, E. J. Greenhaff P. L. 2000-09-01. Protein- and carbohydrate-induced augmentation of whole body creatine retention in humans. Journal of Applied Physiology 89: 1165-1171. PMID 10956365. 8750-7587. Retrieved on 2007-04-12. ^ Engelhardt, M.; Neumann, G., Berbalk, A. Reuter, I. 1998-07-01. Creatine supplementation in endurance sports.. Medicine Science in Sports Exercise 30 7: 1123-1129. Lippincott Williams Wilkins. doi:10.1097/00005768-199807000-00016. 9662683. Retrieved on 2007-04-12. ^ Powers, M.; Arnold B et al. 2003. Creatine Supplementation Increases Total Body Water Without Altering Fluid Distribution. Journal of Athletic Training 38 Jan-Mar 2003: 44-50. National Athletic Trainers' Association, Inc. PMID 12937471. 155510. Retrieved on 2008-01-08. ^ Hespel, P.; Eijnde B.O., Derave W., Richter E.A. 2001. Creatine supplementation: exploring the role of the creatine kinase/phosphocreatine system in human muscle. Canadian Journal of Applied Physiology 26 Suppl.: S79-S102. Human Kinetics Publishers, Inc.. 11897886. Retrieved on 2007-04-12. ^ Olsen, S.; Aagaard P., Fawzi K., et al. 2006. Creatine supplementation augments the increase in satellite cell and myonuclei number in human skeletal muscle induced by strength training. The Journal of Physiology 573 Jun 1: 525-534. doi:10.1113/jphysiol.2006.107359. Retrieved on 2008-01-08. ^ Huso, M.E.; Hampl, J.S., Johnston, C.S. Swan, P.D. 2002-08-16. Creatine supplementation influences substrate utilization at rest. Journal of Applied Physiology 93 6: 2018-2022. doi:10.1152. 8750-7587. Retrieved on 2007-04-12. ^ Huso, M.E.; Hampl, J.S., Johnston, C.S. Swan, P.D. 2007-12-01. Effect of in-season creatine supplementation on body composition and performance in rugby union football players.. Applied physiology, nutrition, and metabolism 32 6: 1052-10572. doi:10.1139/H07-072. Retrieved on 2007-12-01. ^ Child, R. Tallon, M.J. 2007. Creatine ethyl ester rapidly degrades to creatinine in stomach acid. International Society of Sports Nutrition 4th Annual Meeting ^ UNeMed 2003 Annual Report, p.4 ^ Robinson, T.M.; Sewell, D.A., Casey, A., Steenge, G. Greenhaff, P.L. 2000. Dietary creatine supplementation does not affect some haematological indices, or indices of muscle damage and hepatic and renal function. British Journal of Sports Medicine 34 4: 284-288. doi:10.1136/bjsm.34.4.284. Retrieved on 2007-04-12. ^ Mayhew DL, Mayhew JL, Ware JS 2002. Effects of long-term creatine supplementation on liver and kidney functions in American college football players.. Int J Sport Nutr Exerc Metab. 12 4: 453-60. PMID 12500988. ^ Poortmans, J.R.; Francaux, M. 1999-08-01. Long-term oral creatine supplementation does not impair renal function in healthy athletes. Medicine Science in Sports Exercise 31 8: 1108-1110. Lippincott Williams Wilkins, Inc.. doi:10.1097/00005768-199908000-00005. Retrieved on 2007-04-12. ^ Kreider, R.B.; Melton, C., Rasmussen, C.J., Greenwood, M., Lancaster, S., Cantler, E.C., Milnor, P. Almada, A.L. 2004-11-01. Long-term creatine supplementation does not significantly affect clinical markers of health in athletes. Molecular and Cellular Biochemistry 244 1-2: 95-104. Springer Netherlands. doi:10.1023. Retrieved on 2007-04-12. ^ Kreider R. 1998. Creatine: The Ergogenic/Anabolic Supplement. Mesomorphosis 1 4. Retrieved on 2007-04-12. ^ Kreider R, Rasmussen C, Ransom J, Almada AL. 1998. Effects of creatine supplementation during training on the incidence of muscle cramping, injuries and GI distress.. Journal of Strength Conditioning Research 12 275. ^ Neurobiol Aging. 2007 Apr 6 1 ^ Rae, C.; Digney, A.L., McEwan S.R. Bates, T.C. 2003-10-22. Oral creatine monohydrate supplementation improves brain performance: a double-blind, placebo-controlled, cross-over trial. Proceedings of the Royal Society B: Biological Sciences 270 1529: 2147-2150. doi:10.1098/rspb.2003.2492. Retrieved on 2007-04-12. ^ Rae, C.; Digney, A.L., McEwan S.R. Bates, T.C.. Oral creatine monohydrate supplementation improves brain performance: a double-blind, placebo-controlled,. Proceedings of the Royal Society B: Biological Sciences = 2007-04-12. Greenhaff PL et al. 1993. Influence of oral creatine supplementation on muscle torque during repeated bouts of maximal voluntary exercise in men.. Clinical Science 84: 565-571. PMID 8504634. . Phillips, Bill. Sports Supplememt Review 3rd issue. 2000. Stout JR et al. 1997. The effects of a supplement designed to augment creatine uptake on anaerobic reserve capacity. NSCA National Conference Abstract. Benzi G. 2000. Is there a rationale for the use of creatine either as nutritional supplementation or drug administration in humans participating in a sport?. Pharmacological Research 41 3: 255-264. doi:10.1006/phrs.1999.0618. v d e Dietary supplements Types Amino acids Bodybuilding supplement Energy drink Energy bar Fatty acids Herbal Supplements Minerals Prebiotics Probiotics Lactobacillus, Bifidobacterium Vitamins Whole food supplements Vitamins and minerals Retinol Vitamin A B vitamins: Thiamine B1 Riboflavin B2 Niacin B3 Pantothenic acid B5 Pyridoxine B6 Biotin B7 Folic acid B9 Cyanocobalamin B12 Ascorbic acid Vitamin C Ergocalciferol and Cholecalciferol Vitamin D Tocopherol Vitamin E Naphthoquinone Vitamin K Calcium Choline Chlorine Chromium Cobalt Copper Fluorine Iodine Iron Magnesium Manganese Molybdenum Phosphorus Potassium Selenium Sodium Sulfur Zinc Other common ingredients Carnitine Chondroitin sulfate Cod liver oil Copper gluconate Creatine/Creatine supplements Dietary fiber Elemental calcium Ephedra Fish oil Folic acid Ginseng Glucosamine Glutamine Iron supplements Japanese Honeysuckle Krill oil Lingzhi Linseed oil Melatonin Red yeast rice Royal jelly Saw palmetto Spirulina Taurine Wheatgrass Wolfberry Yohimbine Zinc gluconate Related articles Codex Alimentarius Enzyte Metabolife Hadacol Nutraceutical Multivitamin Nutrition Retrieved from http://en..org/wiki/Creatine_supplements Hidden categories: Articles needing additional references from September 2007 | Pharmacology articles needing expert attention | Articles needing expert attention | Pages needing expert attention Views Article Discussion this page History Personal tools Log in / create account Navigation Main page Contents Featured content Current events Random article Search Go Search Interaction Community portal Recent changes Contact Donate to Help Toolbox What links here Related changes Upload file Special pages Printable version Permanent link Cite this page This page was last modified on 27 July 2008, at 17:47
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