- 1) Lewis, Y. S., and Neelakantan, S., (−)-Hydroxycitric acid—the principal acid in the fruits of Garcinia cambogia. Phytochemistry, 4, 610-625 (1965).
- 2) Watson, J. A., Fang, M., and Lowenstein, J. M., Tricarballylate and hydroxycitrate: substrate and inhibitor of ATP: citrate oxaloacetate lyase. Arch. Biochem. Biophys., 135, 209-217 (1969).
- 3) Badmaev, V., Majeed, M., and Conte, A. A., Garicinia cambogia for weight loss. JAMA, 282, 233-234, discussion 235 (1999).
- 4) Schaller, J. L., Garicinia cambogia for weight loss. JAMA, 282, 234, discussion 235 (1999).
- 5) Hayamizu, K., Ishii, Y., Kaneko, I., Shen, M., Sakaguchi, H., Okuhara, Y., Shigematsu, N., Miyazaki, S., and Shimasaki, H., Effects of long-term administration of Garcinia cambogia extract on visceral fat accumulation in humans: a placebo-controlled double blind trial. J. Oleo Sci. (in Japanese), 50, 805-812 (2001).
- 6) Ishihara, K., Oyaizu, S., Onuki, K., Lim, K., and Fushiki, T., Chronic (−)-hydroxycitrate administration spares carbohydrate utilization and promotes lipid oxidation during exercise in mice. J. Nutr., 130, 2990-2995 (2000).
- 7) Lim, K., Ryu, S., Ohishi, Y., Tomi, H., Suh, H., Lee, W.-K., and Kwon, T., Short-term (−)-hydroxycitrate ingestion increases fat oxidation during exercise in athletes. J. Nutr. Sci. Vitaminol., 48, 128-133 (2002).
- 8) Ryu, S., Choi, S.-K., Joung, S.-S., Suh, H., Cha, Y.- S., Lee, S., and Lim, K., Caffeine as a lipolytic food component increases endurance performance in rats and athletes. J. Nutr. Sci. Vitaminol., 47, 139-146 (2001).
- 9) Lim, K., Yoshioka, M., Kikuzato, S., Kiyonaga, A., Tanaka, H., Shindo, M., and Suzuki, M., Dietary red pepper ingestion increases carbohydrate oxidation at rest and during exercise in runners. Med. Sci. Sports Exerc., 29, 355-361 (1997).
- 10) Angus, D. J., Hargreaves, M., Dancey, J., and Febbraio, M., Effect of carbohydrate or carbohydrate plus medium-chain triglyceride ingestion on cycling time trial performance. J. Appl. Physiol., 88, 113-119 (2000).
- 11) Hutber, C. A., Rasmussen, B. B., and Winder, W. W., Endurance training attenuates the decrease in skeletal muscle malonyl-CoA with exercise. J. Appl. Physiol., 83, 1917-1922 (1997).
- 12) Constable, S. H., Favier, R. J., McLane, J. A., Fell, R. D., Chen, D., and Holloszy, J. O., Energy metabolism in contracting rat skeletal muscle: adaptation to exercise training. Am. J. Physiol., 253, C316-C322 (1987).
- 13) Sidossis, L. S., Gastaldelli, A., Klein, S., and Wolfe, R. R., Regulation of plasma fatty acid oxidation during low- and high-intensity exercise. Am. J. Physiol., 272, E1065-E1070 (1997).
- 14) Van Loon, L. J., Van Rooijen, J. J., Niesen, B., Verhagen, H., Saris, W. H., and Wagenmakers, A. J., Effects of acute (−)-hydroxycitrate supplementation on substrate metabolism at rest and during exercise in humans. Am. J. Clin. Nutr., 72, 1445-1450 (2000).
- 15) Kriketos, A. D., Thompson, H. R., Greene, H., and Hill, J. O., (−)-Hydroxycitric acid does not affect energy expenditure and substrate oxidation in adult males in a post-absorptive state. Int. J. Obes. Relat. Metab. Disord., 23, 867-873 (1999).
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(−)-Hydroxycitrate Ingestion Increases Fat Oxidation during Moderate Intensity Exercise in Untrained Men
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