___

• Ahlborg, G., Wahren, J. & Felig, P. (1986). Splanchnic and peripheral glucose and lactate metabolism during and after prolonged arm exercise. J Clin Invest, 77(3),690-699.
• Ahmaidi, S., Granier, P., Taoutaou, Z., Mercier, J., Dubouchaud, H.Prefaut, C.(1 996). Effects of active recovery on plasma lactate and anaerobic power followingrepeated intensive exercise. Med Sci Sports Exer, 28, 450—456.
• Baldari,C.,Videira,M.,Madeira,F., Sergio, J. & Guidetti, L. (2004).Lactate removal during active recovery re- lated to the individual anaerobic and ventilatory thresholds in soccer players. Eur JAppl Physiol, 93(1-2), 224-230.
• Baldari, C., Videira, M., Madeira, F., Sergio, J. & Guidetti, L. (2005). Blood lactate removal during recovery at various intensities below the individual anaerobic threshold in triathletes. J Sports Med Phys Fit, 45(4), 460-466.
• Belcastro, A.N. & Bonen, A. (1975). Lactic acid removal rates during controlled and uncontrolled recovery exercise. J Appl Physiol, 39, 932-936.
• Beneke, R., Hutler, M., Jung, M. & Leithauser, R.M. (2005). Modeling the blood lactate kinetics at maximal short-term
• exercise conditions in children,
• adolescents, and adults. J Appl
• Physiol, 99(2), 499-504.
• Bishop, P., & Martino, M. (1993). Blood lactate measurement in recovery as an adjunct training. Practical Considerations. Sports Med, 16(1),5-13.
• Bond, V., Adams, R.G., Tearney, R.J., Gresham, K. & Ruff, W. (1991). Effects of active and passive recovery on lactate removal and subsequent isokinetic muscle function. J Sports Med Phys Fit, 31,357—361.
• Bonen, A. & Belcastro, A.N. (1976). Comparisition of self-selected recovery methods in lactic acid removal rates. Med Sci Sports Exer, 8,176-178.
• Bonen, A., Campbell, C.J., Kirby, R.L. & Belcastro, A.N. (1979). A multiple regression model for blood lactate removal in man. Pflugers Arch, 380(3), 205-210. Costill, D.L., Barnett, A., Sharp, R., Fink, W.J. & Katz, A. (1983). Leg muscle pH following sprint ru n n i n g. Med Sci Sports Exer, 15(4), 325-329.
• Dodd, S., Powers, S.K., Callender, T. & Brooks, E. (1984). Blood lactate disappearance atvarious intensities of recovery exercise. J Appl Physi- ol, 57(5), 1462-1465.
• Ekblom, B. (1986). Applied physiology of soccer. Sports Med, 3(1), 50-60.
• Fox, E.L., Bowers, R.W. & Foss, M.L. (1988). The Physiological Basis of Physical Education and Ath- letics. Fourth Edition, Philedelphia: W.B. Saunders Company.
• Franchini, E., Yuri Takito, M., Yuzo Nakamura, F., Ayumi Matsushigue, K.&Peduti Dal'Molin Kiss, M.A. (2003). Effects of recovery type after a
• judo combat on blood lactate
• removal and on performance in
• an intermittent anaerobic task. J
• Sports Med Phys Fit, 43(4), 424-431.
• Freund, H. & Zouloumian, P. (1981). Lactate after exercise in man: I. Evolution kinetics in arterial blood. EurJApplPhysiol,46(2),121-133.
• Gladden, L.B. (1991). Net lactate uptake during progressive steady-level contractions in canine skeletal mus- cle. JAppl Physiol, 71(2), 514-520.
• Gollnick, P.D., Bayly, W.M. & Hodgson, D.R. (1986). Exercise intensity, train- ing, diet, and lactate concentration in muscle and blood. Med Sci Sports Exer, 18, 334-340.
• Graham, J.E., Douglas Boatwright, J., Hunskor, M.J. & Howell, D.C. (2003). Effect of active vs. passive recovery onrepeatsuicide run time. J Strength Cond Res, 17(2), 338-341.
• Gupta, S., Goswami,A., Sadhukhan, A.K. & Mathur, D.N. (1996). Comparative study of lactate removal in short term massageofextremities, active recoveryanda passive recovery period after supramaximal exercise sessions. Int J Sports Med, 17(2), 106-110.
• Hargreaves, M., McKenna, M.J., Jenkins, D.G., Warmington, S.A., Li, J.L., Snow, R.J. & Febbraio, MA. (1998). Muscle metabolites and performance during high- intensity, intermittent exercise. J Appl Physiol, 84, 1687—1691 .
• Hermansen, L. & Stensvold, I. (1972). Production and removal of lactate during exercise in man. Acta Physiol Scand, 86(2), 191- 201.
• lnbar, O., Bar-Or, O. & Skinner, S.J. (1996). The Wingate Anaerobic Test. Champain: Human Kinetics Books. Jemni, M., Sands, W.A., Friemel, F. & DeIamarche, P. (2003). Effect of active and passive recovery on blood lactate and performance during simulated competition in high level gymnasts. Can J Appl Physiol, 28(2), 240-256.
• Jorfeldt, L., JuhIin-Danfelt, A. & Karlsson, J. (1978). Lactate release in relation to tissue lactate in human skeletal muscle during exercise. J Appl Physiol: Respirat Environ Exercise Physiol, 44, 350-352.
• Juel, C. & Halestrap, AP. (1999). Lactate transport in skeletal muscle - role and regulation of the monocarboxylate transporter. J Physiol, 15, 517 (Pt3), 633-642.
• Lau, S., Berg, K., Latin, R.W. & Noble, J. (2001). Comparison of active and passive recovery of blood lactate and subsequent performance of repeated work bouts in ice hockey players. J Strength Cond Res, 15(3), 367-371.
• Mazzeo, R.S., Brooks, G.A., Schoeller, D.A. & Budinger, T.F. (1986) Disposal of blood [1-13C] lactate in humans during rest and exercise. J Appl Physiol, 60(1), 232-241.
• McAinch, A.J., Febbraio, M.A.,Parkin,
• J.M., Zhao, S., Tangalakis, K.,
• Stojanovska, L. & Carey, M.F.
• (2004). Effect of active versus
• passive recovery on metabolism
• and performance during
• subsequent exercise.lnt J Sport
• Nutr Exe, 14(2), 185-196.
• Monedero, J. & Donne, B. (2000). Effect of recovery interventions on lactate removal and subsequent performance. Int J Sports Med, 21 (8), 593-597.
• Rontoyannis, GP. (1988). Lactate elimination from the blood during active recovery. J Sports Med Phys Fit, 28, 115-123.
• Rowell, L.B., Kraning K.K., Evans, T.O., Kennedy, J.W., Blackmon, J.R. & Kusumi, F. (1966). Splanchnic removal of lactate and pyruvate during prolonged exercise in man. J Appl Physiol, 21(6), 1773-1783.
• Sahlin, K. & Henriksson, J. (1984). Buffer capacity and lactate accumulation in skeletal muscle of trained and untrained men. Acta Physiol Scand, 122, 331—339.
• Sahlin, K. (1992). Metabolic factors in fatigue. Sports Med, 13, 99—107.
• Shelle, L.,Berg,K.,Latin,R.W.& Noble, J. (2001). Comparison of active and passive recovery of blood lactate and subsequent performance of repeated work bouts in ice hockey players.J Strength Cond Res, 15(3),367—371 .
• Shephard, R.J. (1999). Biology and medicine of soccer, an update. J. Sports Sci, 17, 757—786.
• Skinner, J.S. & McLellan, TM. (1980). The transition from aerobic to anaerobic metabolism. Res Quart, 51, 234 —248.
• Spierer, D.K., Goldsmith, R., Baran, D.A., Hryniewicz,K.& Katz,S.D. (2004). Effects of active vs. passive recovery on work performed during serial supramaximal exercise tests. Int J Sports Med, 25(2), 109-114.
• Stamford, B.A., Moffatt, R.J., Weltman,A., Maldonado, C. &Curtis, M. (1978). Blood lactate disappearance after supramaximal one-Iegged exercise. J Appl Physiol, 45(2), 244-248.
• Stamford, B.A, Weltman, A., Moffatt, R. & Sady, S. (1981). Exercise recovery above and below anaerobic thres- hold following maximal work. J Appl Physiol, 51 , 840-44
• Taoutaou, Z., Granier, P., Mercier, B., Mercier, J., Ahmaidi, S. & Prefaut, C. (1996). Lactate kinetics during passive and partially active recovery in endurance and sprint athletes. Eur J Appl Physiol 0, 73(5), 465-470.
• Thiriet, P., Gozal, D., Wouassi, D., Oumarou, T., Gelas, H. & Lacour, JR. (1993). The effect of various recovery modalities on subsequent performance in consecutive supra- maximal exercise.JSports M e d Phys Fit, 33, 118—129.
• Thomas, C., Sirvent, P., Perrey, S., Raynaud, E. & Mercier, J. (2004). Relationships between maximal muscle oxidative capacity and blood lactate removal after su pramaximal exerciseand fatigue indexes in humans. J Appl 2132-2138.
• Thomas, C., Perrey, S., Lambert, K., Hugon, G., Mornet, D. & Mercier, J. (2005). Monocarboxylate transporters, blood lactate removal after supramaximal exercise, and fatigue indexes in humans. J Appl Physiol, 98(3), 804-809.
• Toubekis,A.G., Douda, H.T. &Tokmakidis, S.P. (2005). Influence of different rest intervals during active or passive recovery on repeated sprint swimming performance. Eur J Appl Physiol, 93(5-6), 694 - 700.
• Watson, R.C., & Hanley, R.D. (1986). Application of active recovery techniques fora simulated ice hockey task. Can J Appl Sport Sci, 11, 82- 87.