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  • Anwer, M.S., Chapman, T.E. and Gronwall, R. (1976) Glucose utilization and recycling in ponies. Am. J. Physiol. 230, 138-142.
  • Argenzio, R.A. and Hintz, H.F. (1972) Effect of diet on glucose entry and oxidation rates in ponies. J. Nutr. 102, 879-892.
  • Atkins, G.L. (1980a) Glucose kinetics in non-steady states. Int. J. Biomed. Comput. 11, 87-97.
  • Atkins, G.L. (1980b) A new technique for maintaining and monitoring conscious, stress-free rabbits in a steady state: Its use in the determination of glucose kinetics. Q. J. exp. Physiol. Cogn. Med. Sci. 65, 63-75.
  • Baker, N., Shipley, R.A., Clark, R.E. and Incefy, G.E. (1959) C14 studies in carbohydrate metabolism: Glucose pool size and rate of turnover in the normal rat. Am. J. Physiol. 196, 245-252.
  • Bosch, A.N., Weltan, S.M., Dennis, S.C. and Noakes, T.D. (1996) Fuel substrate kinetics of carbohydrate loading differs from that of carbohydrate ingestion during prolonged exercise. Metabolism: clinical and experimental 45, 415-423.
  • Chen, B., Landaw, E. and DiStefano, J. (1985) Algorithms for the identifiable parameter combinations and parameter bounds of unidentifiable catenary compartmental models. Math. Biosci. 76, 59-68.
  • Cobelli, C., Toffolo, G. and Ferrannini, E. (1984) A model of glucose kinetics and their control by insulin, compartmental and noncompartmental approaches. Math. Biosci. 72, 291-315.
  • Coggan, A.R., Kohrt, W.M., Spina, R.J., Kirwan, J.P., Bier, D.M. and Holloszy, J.O. (1992) Plasma glucose kinetics during exercise in subjects with high and low lactate thresholds. J. appl. Physiol. 73, 1873-1880.
  • Coyle, E.F. (1995) Integration of the physiological factors determining endurance performance ability. Exerc. Sport Sci. Rev. 23, 25-63.
  • DiStefano, J. (1983) Complete parameter bounds and quasiidentifiability conditions for a class of unidentifiable linear systems. Math. Biosci. 65, 51-68.
  • Evans, J.W. (1971) Effect of fasting, gestation, lactation and exercise on glucose turnover in horses. J. anim. Sci. 33, 1001-1004.
  • Finegood, D.T., Miles, P.D., Lickley, H.L. and Vranic, M. (1992) Estimation of glucose production during exercise with a one-compartment variable-volume model. J. appl. Physiol. 72, 2501-2509.
  • Fortney, S.M., Nadel, E.R., Wenger, C.B. and Bove, J.R. (1981) Effect of blood volume on sweating rate and body fluids in exercising humans. J. appl. Physiol. 51, 1594-1600.
  • Gastaldelli, A., Schwarz, J.M., Caveggion, E., Traber, L.D., Traber, D.L., Rosenblatt, J., Toffolo, G., Cobelli, C. and Wolfe, R.R. (1997) Glucose kinetics in interstitial fluid can be predicted by compartmental modeling. Am. J. Physiol. 272, E494-E505.
  • Geor, R.J., Hinchcliff, K.W., McCutcheon, L.J. and Sams, R.A. (2000a) Epinephrine inhibits exogenous glucose utilization in exercising horses. J. appl. Physiol. 88, 1777-1790.
  • Geor, R.J., Hinchcliff, K.W. and Sams, R.A. (2000b) Beta-adrenergic blockade augments glucose utilization in horses during graded exercise. J. appl. Physiol. 89, 1086-1098.
  • Geor, R.J., Hinchcliff, K.W. and Sams, R.A. (2000c) Glucose infusion attenuates endogenous glucose production and enhances glucose use of horses during exercise. J. appl. Physiol. 88, 1765-1776.
  • Gustavson, S.M., Chu, C.A., Nishizawa, M., Farmer, B., Neal, D., Yang, Y., Donahue, E.P., Flakoll, P. and Cherrington, A.D. (2003) Interaction of glucagon and epinephrine in the control of hepatic glucose production in the conscious dog. Am. J. Physiol. Endocrinol. Metab. 284, E695-E707.
  • Harrison, M.H. (1985) Effects on thermal stress and exercise on blood volume in humans. Physiol. Rev. 65, 149-209.
  • Henneke, D.R., Potter, G.D., Kreider, J.L. and Yeates, B.F. (1983) Relationship between condition score, physical measurements and body fat percentage in mares. Equine vet. J. 15, 371-372.
  • Hess, T.M., Kronfeld, D.S., Geor, R.J., Treiber, K.H. and Freire, M.S. (2004) Testing of two glycogen repleting formulas after a treadmill exercise test in endurance horses. In: The Elite Race and Endurance Horse, Ed: A.Lindner, Lensing Druck, Dortmund. pp 181-185.
  • Hoffman, R.M., Boston, R.C., Stefanovski, D., Kronfeld, D.S. and Harris, P.A. (2003) Obesity and diet affect glucose dynamics and insulin sensitivity in Thoroughbred geldings. J. anim. Sci. 81, 2333-2342.
  • Insel, P.A., Liljenquist, J.E., Tobin, J.D., Sherwin, R.S., Watkins, P., Andres, R. and Berman, M. (1975) Insulin control of glucose metabolism in man: a new kinetic analysis. J. clin. Invest. 55, 1057-1066.
  • Jacquez, J.A. (1992) Theory of production rate calculations in steady and non-steady states and its application to glucose metabolism. Am. J. Physiol. 262, E779-E790.
  • Jeukendrup, A.E., Raben, A., Gijsen, A., Stegen, J.H., Brouns, F., Saris, W.H. and Wagenmakers, A.J. (1999) Glucose kinetics during prolonged exercise in highly trained human subjects: Effect of glucose ingestion. J. Physiol. 515, 579-589.
  • Jose-Cunilleras, E., Hinchcliff, K.W., Sams, R.A., Devor, S.T. and Linderman, J.K. (2002) Glycemic index of a meal fed before exercise alters substrate use and glucose flux in exercising horses. J. appl. Physiol. 92, 117-128.
  • Kronfeld, D.S. (1977) Glucose transport and recycling determined by means of two tracers and multicompartmental analysis. Fed. Proc. 36, 259-264.
  • Kronfeld, D.S., Rodiek, A.V. and Stull, C.L. (2004) Glycemic indices, glycemic loads, and glycemic dietetics. J. equine vet. Sci. 24, 399-404.
  • Landaw, E., Chen, B. and DiStefano, J. (1984) An algorithm for the identifiable parameter combinations of the general mammillary compartmental model. Math. Biosci. 72, 199-212.
  • Nyman, S., Jansson, A., Lindholm, A. and Dahlborn, K. (2002) Water intake and fluid shifts in horses: effects of hydration status during two exercise tests. Equine vet. J. 34, 133-142.
  • Pagan, J.D., Geor, R.J., Caddel, S.E., Pryor, P.B. and Hoekstra, K.E. (2001) The relationship between glycemic reponse and the incidence of OCD in Thoroughbred weanlings: A field study. Proc. Am. Ass. equine Practnrs. 47, 322-325.
  • Pagan, J.D., Geor, R.J., Harris, P.A., Hoekstra, K., Gardner, S., Hudson, C. and Prince, A. (2002) Effects of fat adaptation on glucose kinetics and substrate oxidation during low-intensity exercise. Equine vet. J. 34, 33-38.
  • Radziuk, J., Norwich, K.H. and Vranic, M. (1978) Experimental validation of measurements of glucose turnover in nonsteady state. Am. J. Physiol. 234, E84-E93.
  • Sejersted, O.M., Vollestad, N.K. and Medbo, J.I. (1986) Muscle fluid and electrolyte balance during and following exercise. Acta Physiol. Scand. Suppl. 556, 119-127.
  • Shipley, R.A. and Clark, R.E. (1972) Tracer Methods for in vivo Kinetics, Academic Press, New York.
  • Steele, R., Wall, J.S., De Bodo, R.C. and Altszuler, N. (1956) Measurement of size and turnover rate of body glucose pool by the isotope dilution method. Am. J. Physiol. 187, 15-24.
  • Sumida, K.D., Arimoto, S.M., Catanzaro, M.J. and Frisch, F. (2003) Effect of age and endurance training on the capacity for epinephrine-stimulated gluconeogenesis in rat hepatocytes. J. appl. Physiol. 95, 712-719.
  • Treiber, K.H. (2006) Glucose Disposal and Insulin Sensitivity at Rest and during Exercise in Trained Horses Adapted to Different Dietary Energy Sources and in Association with Laminitis in Ponies. PhD Dissertation, Viginia Polytechnic Inst & State Univ, Blacksburg.
  • Treiber, K.H., Geor, R.J., Boston, R.C., Hess, T.M., Harris, P.A. and Kronfeld, D.S. (2008) Dietary energy source affects glucose kinetics in trained Arabian geldings at rest and during endurance exercise. J. Nutr. 138, 964-970.
  • Treiber, K.H., Kronfeld, D.S., Hess, T.M., Byrd, B.M., Splan, R.K. and Staniar, W.B. (2006a) Evaluation of genetic and metabolic predispositions and nutritional risk factors for pasture-associated laminitis in ponies. J. Am. vet. med. Ass. 228, 1538-1545.
  • Treiber, K.H., Hess, T.M., Kronfeld, D.S., Boston, R.C., Geor, R.J., Friere, M., Silva, A.M.G. and Harris, P.A. (2006b) Glucose dynamics during exercise: Dietary energy sources affect minimal model parameters in trained Arabian geldings during endurance exercise. Equine vet. J. 36S, 631-636.
  • Vick, M.M., Adams, A.A., Murphy, B.A., Sessions, D.R., Horohov, D.W., Cook, R.F., Shelton, B.J. and Fitzgerald, B.P. (2007) Relationship between inflammatory cytokines, obesity, and insulin sensitivity in the horse. J. anim. Sci. 85, 1144-1155.
  • Wasserman, D.H., Williams, P.E., Lacy, D.B., Goldstein, R.E. and Cherrington, A.D. (1989) Exercise-induced fall in insulin and hepatic carbohydrate metabolism during muscular work. Am. J. Physiol. 256, E500-E509.
  • White, R.G., Steel, J.W., Leng, R.A. and Luick, J.R. (1969) Evaluation of three isotope-dilution techniques for studying the kinetics of glucose metabolism in sheep. Biochem. J. 114, 203-214.