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 FNS  Vol.1 No.1 , July 2010
Sodium Bicarbonate—A Potent Ergogenic Aid?
Abstract: This report aims to look at the role of Sodium bicarbonate as a potent Ergogenic aid and its role in improving the performance of athletes. It includes the mechanism of action of sodium bicarbonate during high-intensity exercise. The report also shows the various types of athletes who can be benefited from sodium bicarbonate loading, evidences for improvement in performance, conflicting evidences, recommended dosages and side-effects for bicarbonate loading.
Cite this paper: nullJ. Shelton and G. Kumar, "Sodium Bicarbonate—A Potent Ergogenic Aid?," Food and Nutrition Sciences, Vol. 1 No. 1, 2010, pp. 1-4. doi: 10.4236/fns.2010.11001.
References

[1]   D. M. Ahrendt, “Ergogenic Aids: Counselling the Athlete,” American Family Physician, Vol. 63, No. 5, 2001, pp. 913-922.

[2]   J. R. Berning and S. N. Steen, “Sports Nutrition for the 90’s: The Health Professional’s Handbook,” Aspen Publishers, Gaithersburg, 1991.

[3]   I. Wolinsky and J. A. Driskell, “Nutritional Ergogenic Aids,” CRC Press, Boca Raton, 2004.

[4]   M. Ryan, “Sports Nutrition for Endurance Athletes,” Velo Press, Boulder, 2002.

[5]   B. Requena, M. Zabala, P. Padial and B. Feriche, “Sodium Bicarbonate and Sodium Citrate: Ergogenic Aids,” Journal of Strength and Conditioning Research, Vol. 19, No. 1, 2005, pp. 213-224.

[6]   E. Applegate, “Effective Nutritional Ergogenic Aids,” International Journal of Sports Nutrition, Vol. 9, No. 2, 1999, pp. 229-239.

[7]   R. J. Maughn, L. M. Burke and E. F. Coyle, “Food, Nutrition and Sports Performance II–The International Olympic Committee Consensus on Sports Nutrition,” Routledge Publishing, Cornwall, 2004.

[8]   L. Burke and V. Deakin, “Clinical Sports Nutrition,” 2nd Edition, McGraw-Hill Book Company, Sydney, 2000, p. 478.

[9]   L. R. McNaughton, S. Ford and C. Newbold, “Effect of Sodium Bicarbonate Ingestion on High Intensity Exercise in Moderately Trained Women,” Journal of Strength and Conditioning Research, Vol. 11, No. 2, 1997, pp. 98-102.

[10]   M. C. E. VanMontfoort, L. VanDieren, W. G. Hopkins and J. P. Shearman, “Effects of Ingestion of Bicarbonate, Citrate, Lactate, and Chloride on Sprint Running,” Medicine and Science in Sports and Exercise, Vol. 36, No. 7, 2004, pp. 1239-1243.

[11]   L. R. McNaughton, B. Dalton, J. Tarr and D. Buck, “Neutralize Acid to Enhance Performance,” Sportscience Training & Technology, 1997. http://www.sportsci.org/traintech/buffer/lrm.htm

[12]   T. Stellingwerff, M. K. Boit and P. T. Res, “Nutritional Strategies to Optimize Training and Racing in MiddleDistance Athletes,” Journal of Sports Sciences, Vol. 25, No. S1, 2007, pp. S17-S28.

[13]   R. J. Maughn, D. S. King and T. Lea, “|Dietary Supplements,” Journal of Sports Sciences, Vol. 22, No. 1, 2004, pp. 95-113.

[14]   L. McNaughton, B. Dalton and G. Palmer, “Sodium Bicarbonate can be Used as an Ergogenic Aid in High-Intensity, Competitive Cycle Ergometry of 1 h Duration,” European Journal of Applied Physiology, Vol. 80, No. 1, 1999, pp. 64-69.

[15]   J. O. Marx, S. E. Gordon, N. H. Vos, B. C. Nindl, A. L. Gomez, J. S. Volek, J. Pedro, N. Ratamess, R. U. Newton, D. N. French, M. R. Rubin, K. Hakkinen, J. William and W. J. Kraemer, “Effect of Alkalosis on Plasma Epinephrine Responses to High Intensity Cycle Exercise in Humans,” European Journal of Applied Physiology, Vol. 87, No. 1, 2002, pp. 72-77.

[16]   R. J. Maughan, “Nutritional Ergogenic Aids and Exercise Performance,” Nutrition Research Reviews, Vol. 12, No.2, 1999, pp. 255-280.

[17]   R. J. Maughan and L. M. Burke, “Handbook of Sports Medicine and Science: Sports Nutrition,” Blackwell Publishing, Cornwall, 2002.

[18]   I. I. Douroudos, I. G. Fatouros, V. Gourgoulis, A. Z. Jamurtas, T. Tsitsios, A. Hatzinikolaou, K. Margonis, K. Mavromatidis and K. Taxildaris, “Dose-Related Effects of Prolonged NaHCO3 Ingestion during High-Intensity Exercise,” Medicine and Science in Sports and Exercise, Vol. 38, No. 10, 2006, pp. 1746-1753.

[19]   J. Edge, D. Bishop and C. Goodman, “Effects of Chronic NaHCO3 Ingestion during Interval Training on Changes to Muscle Buffer Capacity, Metabolism, and Short-Term Endurance Performance,” Journal of Applied Physiology, Vol. 101, 2006, pp. 918-925.

 
 
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