JSSM- 2004, Vol.3, Issue 3, 131

REFERENCES

Ahlborg, B., Bergström, J., Ekelund, L.G. and Hultman, E. (1967) Muscle glycogen and muscle electrolytes during prolonged physical exercise. Acta Physiologica Scandinavica 70, 129-142.

Bergström, J., Hermansen, L., Hultman, E. and Saltin, B. (1967) Diet, muscle glycogen and physical performance. Acta Physiologica Scandinavica 71, 140-150.

Bergström, J. and Hultman, E. (1967) A study of the glycogen metabolism during exercise in man. Scandinavian Journal of Clinical Laboratory Investigation 19, 218-226.

Biolo, G., Tipton, K.D., Klein, S. and Wolfe, R.R. (1997) An abundant supply of amino acids enhances the metabolic effect of exercise on muscle protein. American Journal of Physiology 273, E122-E129.

Blom, P.C.S., Høstmark, A.T., Vaage, O., Kardel, K.R. and Mæhlum, S. (1987) Effect of different post-exercise sugar diets on the rate of muscle glycogen synthesis. Medicine and Science in Sports and Exercise 19, 491-496.

Carrithers, J.A., Williamson, D.L., Gallagher, P.M., Godard, M.P., Schulze, K.E. and Trappe, S.W. (2000) Effects of postexercise carbohydrate-protein feedings on muscle glycogen restoration. Journal of Applied Physiology 88, 1976-1982.

Cartee, G.D., Young, D.A., Sleeper, M.D., Zierath, J., Wallberg-Henriksson, H. and Holloszy, J.O. (1989) Prolonged increase in insulin-stimulated glucose transport in muscle after exercise. American Journal of Physiology 256, E494-E499.

Clarkson, P.M. and Hubal, M.J. (2002) Exercise-induced muscle damage in humans. American Journal of Physical Medicine and Rehabilitation 81(Suppl. 11), S52-S69.

Costill, D.L., Pascoe, D.D., Fink, W.J., Rogers, R.A., Barr, S.I. and Pearson, D. (1990) Impaired muscle glycogen resynthesis after eccentric exercise. Journal of Applied Physiology 69, 46-50.

Doyle, J.A., Sherman, W.M. and Strauss, R.L. (1993) Effects of eccentric and concentric exercise on muscle glycogen replenishment. Journal of Applied Physiology 74, 1848-1855.

Etgen, G.J. Jr., Wilson, C.M., Jensen, J. Cushman, S.W. and Ivy, J.L. (1996) Glucose transport and cell surface GLUT-4 protein in skeletal muscle of the obese Zucker rat. American Journal of Physiology 271, E294-E301.

Evans, W.J. (2002) Effects of exercise on senescent muscle. Clinical Orthopedics 403(Suppl.), S211-S220.

Garetto, L.P., Richter, E.A., Goodman, M.N. and Ruderman, N.B. (1984) Enhanced muscle glucose metabolism after exercise in the rat: the two phases. American Journal of Physiology 246, E471-E475.

Gautsch, T.A., Anthony, J.C., Kimball, S.R., Paul, G.L., Layman, D.K. and Jefferson, L.S. (1998) Availability of eIF4E regulates skeletal muscle protein synthesis during recovery from exercise. American Journal of Physiology 274, C406-C414.

Goodyear, L.J., Hirshman, M.F., King, P.A., Horton, E.D., Thompson, C.M. and Horton, E.S. (1990) Skeletal muscle plasma membrane glucose transport and glucose transporters after exercise. Journal of Applied Physiology 68, 193-198.

Hermansen, L., Hultman, E. and Saltin, B. (1965) Muscle glycogen during prolonged severe exercise. Acta Physiologica Scandinavica 71, 334-346.

Ivy, J.L. (1998) Glycogen resynthesis after exercise: Effect of carbohydrate intake. International Journal of Sports Medicine 19 (suppl.), 142-146.

Ivy, J.L., Goforth, H.W., Damon, B.D., McCauley, T.R., Parsons, E.C. and Price, T.B. (2002) Early post-exercise muscle glycogen recovery is enhanced with a carbohydrate-protein supplement. Journal of Applied Physiology 93, 1337-1344.

Ivy, J.L., Katz, A.L., Cutler, C.L., Sherman, W.M. and Coyle, E.F. (1988a) Muscle glycogen synthesis after exercise: effect of time of carbohydrate ingestion. Journal of Applied Physiology 64, 1480-1485.

Ivy, J.L., Lee, M.C., Brozinick, J.T. and Reed, M.J. (1988b) Muscle glycogen storage after different amounts of carbohydrate ingestion. Journal of Applied Physiology 65, 2018-2023.

Jentjens, R.L.P.G., van Loon, L.J.C., Mann, C.H., Wagenmakers, A.J.M. and Jeukendrup, A.E. (2001) Addition of protein and amino acids to carbohydrates does not enhance postexercise muscle glycogen synthesis. Journal of Applied Physiology 91, 839-846.

Levenhagen, D.K., Carr, C, Carlson, M.G., Maron, D.J., Borel, M.J. and Flakoll, P.J. (2002) Postexercise protein intake enhances whole-body and leg protein accretion in humans. Medicine and Science in Sports and Exercise 34, 828-837.

Levenhagen, D.K., Gresham, J.D., Carlson, M.G., Maron, D.J., Borel, M.J. and Flakoll, P.J. (2001) Postexercise nutrient intake timing in humans is critical to recovery of leg glucose and protein homeostasis. American Journal of Physiology 280, E982-E993.

Mæhlum, S., Høstmark, A.T. and Hermansen, L. (1977) Synthesis of muscle glycogen during recovery after prolonged severe exercise in diabetic and non-diabetic subjects. Scandinavian Journal of Clinical Laboratory Investigation 37, 309-316.

Miller, S.L., Tipton, K.D., Chinkes, D.L., Wolf, S.E., and Wolfe, R.R. (2003) Independent and combined effects of amino acids and glucose after resistance exercise. Medicine and Science in Sports and Exercsie 35, 449-455.

Niles, E.S., Lachowetz, T., Garfi, J., Sullivan, W., Smith, J.C., Leyh, B.P. and Headley, S.A. (2001) Carbohydrate-protein drink improves time to exhaustion after recovery from endurance exercise. Journal of Exercise Physiology 4, 45-52.

Okamura, K, Doi, T, Hamada, K, Sakurai, M., Matsumoto, K., Imaizumi, K., Yoshioka, Y., Shimizu, S. and Suzuki, M. (1997) Effect of amino acid and glucose administration during postexercise recovery on protein kinetics in dogs. American Journal of Physiology 272, E1023-E1030.

O’reilly, K.P., Warhol, M.J., Fielding, R.A., Frontera, W.R., Meredith, C.N. and Evans, W.J. (1987) Eccentric exercise-induced muscle damage impairs muscle glycogen repletion. Journal of Applied Physiology 63, 252-256.

Pallotta, J.A. and Kennedy, P.J. (1968) Response of plasma insulin and growth hormone to carbohydrate and protein feeding. Metabolism 17, 901-908.

Piehl-Aulin, K., Soderlund, K, and Hultman, E. (2000) Muscle glycogen resynthesis rate in humans after supplementation of drinks containing carbohydrates with low and high molecular masses. European Journal of Applied Physiology 81, 346-351.

Rasmussen, B.B., Tipton, K.D., Miller, S.L., Wolf, S.E. and Wolfe, R.R. (2000) An oral essential amino acid-carbohydrate supplement enhances muscle protein anabolism after resistance exercise. Journal of Applied Physiology 88, 386-393.

Richter, E.A., Garetto, L.P., Goodman, M.N. and Ruderman, N.B. (1984) Enhanced muscle glucose metabolism after exercise: modulation by local factors. American Journal of Physiology 246, E476-E482.

Roy, B.D., Tarnopolsky, M.A., MacDougall, J.D., Fowles, J. and Yarasheski, K.E. (1997) Effect of glucose supplement timing on protein metabolism after resistance training. Journal of Applied Physiology 82, 1882-18888.

Saunders, M.J., Kane, M.D. and Todd, M.K. (In Press) Effects of a carbohydrate-protein beverage on cycling endurance and muscle damage. Medicine and Science in Sports and Exercise.

Spiller, G.A., Jensen, C.D., Pattison, T.S., Chuck, C.S., Whittam, J.H. and Scala, J. (1987) Effect of protein dose on serum glucose and insulin response to sugar. American Journal of Clinical Nutrition 46, 474-480.

Suzuki, M., Doi, T., Lee, S.J., Okamura, K., Shimizu, S., Okano, G., Sato, Y., Shimomura, Y. and Fushiki, T. (1999) Effect of meal timing after resistance exercise on hind limb muscle mass and fat accumulation in trained rats. Journal of Nutritional Science and Vitaminology 45, 401-409.

Tarnopolsky, M.A., Bosman, M., MacDonald, J.R., Vandeputte, D., Martin, J. and Roy, B.D. (1997) Postexercise protein-carbohydrate and carbohydrate supplements increase muscle glycogen in men and women. Journal of Applied Physiology 83, 1877-1883.

Tipton, K.D., Ferrando, A.A., Phillips, S.M., Doyle, D., Jr. and Wolfe, R.R. (1999) Postexercise net protein synthesis in human muscle from orally administered amino acids. American Journal of Physiology 276, E628-E634.

van Hall, G., Shirreffs, S.M. and Calbet, J.A.L. (2000) Muscle glycogen resynthesis during recovery from cycle exercise: no effect of additional protein ingestion. Journal of Applied Physiology 88, 1631-1636.

Walsh, N.P., Blannin, A.K., Robson, P.J. and Gleeson, M. (1998) Glutamine, exercise and immune function. Links and possible mechanisms. Sports Medicine 26, 177-191.

Wolfe, R.R. (2001) Effects of amino acid intake on anabolic processes. Canadian Journal of Applied Physiology 26(Suppl.), S220-S227.

Williams, M.B., Raven, P.B., Fogt, D.L. and Ivy, J.L. (2003) Effects of recovery beverages on glycogen restoration and endurance exercise performance. Journal of Strength and Conditioning Research 17, 12-19.

Zawadzki, K.M., Yaspelkis, B.B. III, and Ivy, J.L. (1992) Carbohydrate-protein complex increases the rate of muscle glycogen storage after exercise. Journal of Applied Physiology 72, 1854-1859.