Bae, S.Y., Yasukochi, M., Toshinao, K., Hamaoka, T., Kizaki, T., Ohno, H. and Haga, H. (1997) Changes of blood volume and oxygenation during Wingate test in sprinters and non-athletes (abstract). Medicine & Science in Sports & Exercise 229, S181.

Bar-Or, O. (1987) The Wingate anaerobic test, an update on methodology, reliability, and validity. Sports Medicine 4, 381-394.

Calbet, J.A.L., De Paz, J.A., Garatachea, N., Cabeza de Vaca, S. and Chavarrren. J. (2003) Anaerobic energy provision does not limit Wingate exercise performance in endurance-trained cyclists. Journal of Applied Physiology 94, 668-676.

Costes, F., Barthelemy, J.C., Feasson, L., Busso, T.,Geyssant, A. and Denis, C. (1996) Comparison of muscle near-infrared spectroscopy and femoral blood gases during steady-state exercise in humans. Journal of Applied Physiology 80, 1345-1350.

Dempsey, J.A., Hanson, P.G., Pegelow, D., Claremont, A. and Rankin, J. (1982) Limitations to exercise capacity and endurance: pulmonary system. Canadian Journal of Applied Sport Science 7, 4-13.

Ito, O., Suzuki, Y., Yamazaki, K. and Takamatsu, K. (2001) The influence of improved muscle buffer capacity due to hypoxic training on high intensity exercise performance. Descente Sports Science 22, 117-126. (In Japanese: English abstract).

Jensen-Urstad, M., Hallback, I. and Sahlin, K. (1995) Effect of hypoxia on muscle oxygenation and metabolism during arm exercise in humans. Clinical Physiology 15, 27-37.

Kawaguchi, K., Tabusadani, M., Sekikawa, K., Hayashi, Y. and Onari, K. (2001) Do the kinetics of peripheral muscle oxygenation reflect systemic oxygen intake? European Journal of Applied Physiology 84, 158-161.

Martin, D. and O'Kroy, J. (1993) Effects of acute hypoxia on the VO2max of trained and untrained subjects. Journal of Sports Sciences 11, 37-42.

Matcher, S.J., Elwell, C.E., Cooper, C.E., Cope, M. and Delpy, D.T. (1995) Performance comparison of several published tissue near-infrared spectroscopy algorithms. Analytical Biochemistry 227, 54-68.

McLellan, T.M., Kavanagh, M.F. and Jacobs, I. (1990) The effect of hypoxia on performance during 30 s or 45 s of supramaximal exercise. European Journal of Applied Physiology and Occupational Physiology 60, 155-161.

Mollard, P., Woorons, X., Letournel, M., Lamberto, C., Favret, F., Pichon, A., Beaudry, M. and Richalet, J. P. (2007) Determinant factors of the decrease in aerobic performance in moderate acute hypoxia in women endurance athletes. Respiratory Physiology & Neurobiology 115, 178-186.

Oguri, K., Du, N., Kato, Y., Miyamoto, K., Masuda, T., Shimizu, K. and Matsuoka, T. (2004) Effect of moderate altitude (1800m) on peripheral muscle oxygenation during leg resistance in young males. Journal of Sports Science & Medicine 3, 182-189.

Quaresima, V., Lepanto, R. and Ferrari, M. (2003) The use of near infrared spectroscopy in sports medicine. Journal of Sports Medicine and Physical Fitness 43, 1-13.

Raynaud, J., Douguet, D., Legros, P., Capderou, A., Raffestin, B. and Durand, J. (1986) Time course of muscular blood metabolites during forearm rhythmic exercise in hypoxia. Journal of Applied Physiology 660, 1203-1208.

Richardson, R.S., Noyszewski, E.A., Kendrick, K.F., Leigh, J.S. and Wagner, P.D. (1995) Myoglobin O2 desaturation during exercise. Evidence of limited O2 transport. The Journal of Clinical Investigation 996, 1916-1926.

Subudhi, A.W., Dimmen, A.C., and Roach, R.C. (2007) Effects of acute hypoxia on cerebral and muscle oxygenation during incremental exercise. Journal of Applied Physiology 103, 177-183.

Wang, F., Ding, H., Tian, F., Zhao, J., Xia, Q. and Tang, X. (2001) Influence of overlying tissue and probe geometry on the sensitivity of a near-infrared tissue oximeter. Physiological Measurement 22, 201-208.

WMADH. (2000) World Medical Association Declaration of Helsinki: Ethical principles for medical research involving human subjects. Journal of the American Medical Association 20, 3043-3045.