JSSM 2003 - 2, 47 - 51, REFERENCES

Ainsworth, B.E., Serfass, R.C., and Leon A.S. (1993) Effects of recovery duration and blood lactate level on power output during cycling. Canadian Journal of Applied Physiology 18, 19-30.

Bangsbo, J., Graham, T., Johansen, L., and Saltin B. (1994) Muscle lactate metabolism in recovery from intense exhaustive exercise: impact of light exercise. Journal of Applied Physiology 77, 1890-1895.

Belcastro, A.N., and Bonen A. (1975) Lactic acid removal rates during controlled and uncontrolled recovery exercise. Journal of Applied Physiology 39, 932-936.

Bond, V., Adams, R.G., Tearney R.J., Gresham K., and Ruff, W. (1991) Effects of active and passive recovery on lactate removal and subsequent isokinetic muscle function. Journal of Sports Medicine and Physical Fitness 31, 357-361.

Brooks, G.A. (1986) The lactate shuttle during exercise and recovery. Medicine and Science in Sports and Exercise 18, 360-368.

Dodd, S., Powers, S.K. Callender, T. and Brooks, E. (1984) Blood lactate disappearance at various intensities of recovery exercise. Journal of Applied Physiology 57, 1462-1465.

Gregg, S.G., Mazzeo, R.S. Budinger, T.F. and Brooks, G.F. (1984) Acute anemia increases lactate production and decreases lactate clearance during exercise. Journal of Applied Physiology 67, 756-764.

Hebestreit, H., Mimura, K., and Bar-Or, O. (1993) Recovery of muscle power after high intensity short-term exercise: comparing boys and men. Journal of Applied Physiology 74, 2875-2880.

Hermansen, L., and Stensvold, I. (1972) Production and removal of lactate during exercise in man. Acta. physiologica Scandinavica. 86, 191-201.

Hetenyi, G., Perez, G., and Vranic, M. (1983) Turnover and precursor-product relationships of nonlipid metabolites. Physiology Review 63, 606-667.

Jorfeldt, T. (1970) Metabolism of L(+)-lactate in human skeletal muscle during exercise. Acta. physiologica Scandinavica. 388 (suppl.) 55-67.

Lakomy, H. L. (1986) Measurement of work and power output using friction loaded cycle ergometers. Ergonomics 29, 509-517.

McLoughlin, P.,McCaffrey, N. and Moynihan, J.B. (1991) Gentle exercise with a previously inactive muscle group hastens the decline of blood lactate concentration after strenuous exercise. European Journal of Applied Physiology 62, 274-278.

Ratel, S., Bedu, M., Hennegrave, A., Dore, E., and Duche, P. (2002) Effects of Age and Recovery Duration on Peak Power Output During Repeated Cycling Sprints. International Journal of Sports Medicine 23, 397-402.

Roth, D.A., and Brooks, G.A. (1990) Lactate transport is mediated by a membrane bound carrier in rat skeletal muscle sarcolemmal vesicles. Archives of Biochemistry & Biophysics. 279, 377-385.

Rowell, I., Saltin, B.R., Kiens, B. and Christenson, N.J. (1986) Is peak quadriceps blood flow in humans even higher during exercise with hypoxemia? Heart Circulation and Physiology 20, H1038-H1044.

Signorile, J. F., Ingalls, C., and Tremblay, L.M. (1993) The effects of active and passive recovery on short term, high intensity power output. Canadian Journal of Applied Physiology 18, 31-42.

Stanley, W.C., Wisneski, J.A., E.W. Gertz, E.W., Neese, R.A. and Brooks, G.A. (1988) Glucose and lactate interrelations during moderate intensity exercise in man. Metabolism 37, 850-858.

Stanley, W.C., and Lehman, S.L. (1988) A model for measurement of lactate disappearance with isotope tracers in the steady state. The BiochemicalJournal 256, 1035-1038.

Thiriet P., Gozal, D., Wouassi, D., Oumarou, T., Gelas, H., and Lacour, J.L. (1993) The effect of various recovery modalities on subsequent performance, in consecutive supramaximal exercise. Journal of Sports Medicine and Physical Fitness 33, 118-129.