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  • Alberts, M.K., Clarke, C.R., MacAllister, C.G. and Homer, L.M. (2000) Pharmacokinetics of acetazolimide after intravenous and oral administration in horses. Am. J. vet. Res. 61, 965-968.
  • Bayly, W.M., Hodgson, D.R., Schultz, D.A., Dempsey, J.A. and Gollnick, P.D. (1989) Exercise-induced hypercapnia in the horse. J. appl. Physiol. 67, 1858-1966.
  • Bretcher, M.S. (1971) A major protein which spans the human erythrocyte membrane. J. Mol. Biol. 59, 351-357.
  • Buono, M.J. and Yeager, J.E. (1986) Intraerythrocyte and plasma lactate concentrations during exercise in humans. Eur. J. appl. Physiol. 55, 326-329.
  • Cardenas, V. Jr, Heming, T.A. and Bidani, A. (1998) Kinetics of CO2 excretion and intravascular pH disequilibria during carbonic anhydrase inhibition. J. appl. Physiol. 84, 683-694.
  • Chow, E.I., Crandall, E.D. and Forster, R.E. (1976) The kinetics of bicarbonate-chloride exchange across the human erythrocyte. J. Gen. Physiol. 68, 633-652.
  • Coates, G., O’Brodovich, H., Jefferies, A.L. and Gray, G.W. (1984) Effects of exercise on lung lymph flow in sheep and goats during normoxia and hypoxia. J. clin. Invest. 74, 133-141.
  • Dill, D.B. and Costill, D.L. (1974) Calculation of percentage changes in volumes of blood, plasma, and red cells in dehydration. J. appl. Physiol. 37, 247-248.
  • Fievet, B., Caroff, J. and Motais, R. (1990) Catecholamine release controlled by blood oxygen tension during deep hypoxia in trout. Effect on red blood cell Na/H exchanger. Respir. Physiol. 79, 81-90.
  • Geers, C. and Gros, G. (2000) Carbon dioxide transport and carbonic anhydrase in blood and muscle. Physiol. Rev. 80, 681-715.
  • Gibson, J.S., Cossins, A.R. and Ellory, J.C. (2000) Oxygen-sensitive transporters in vertebrate red cells. J. expt. Biol. 203, 1395-1407.
  • Gibson, J.S., Ellory, J.C., Culliford, S.J. and Fincham, D.A. (1993) Volume-sensitive KCl co-transport and taurine fluxes in horse red blood cells. Exp. Physiol. 78, 685-695.
  • Gibson, J.S., Godart, H., Ellory, J.C., Staines, H., Honess, N.A. and Cossins, A.R. (1995) Modulation of K+-Cl- cotransport in equine red blood cells. Exp. Physiol. 79, 997-1009.
  • Hamburger, H. (1891) Uber der Einfluss der Athmung auf die Permeabilitit der Blutkörperchen. Z. Biol. 28, 405.
  • Hamburger, H. (1918) Anionenwanderungen in Serum und Blut unter dem Einfluss von CO2, Saure und Akali. Biochem. Z. 86, 309-324.
  • Hansen, A.T. (1961) Osmotic pressure effect of the red blood cells - possible physiological significance. Nature 190, 504-508.
  • Harrison, M.H. (1985) Effects of thermal stress on blood volume in humans. Physiol. Rev. 65, 149-209.
  • Hodgson, D.R., Rose, R.J., McCutcheon, L.J., Kelso, T.B., Bayly, W.M. and Gollnick, P.D. (1991) Effects of acetazolamide on cardiorespiratory and metabolic responses to submaximal exercise. Equine Exerc. Physiol. 3, 343-352.
  • Honess, N.A., Gibson, J.S. and Cossins, A.R. (1996) The effects of oxygenation upon the Cl dependent K flux pathway in equine red cells. Pflugers Arch. 432, 270-277.
  • Hultman, E., Del Canale, S. and Sjöholm, H. (1985) Effect of induced metabolic acidosis on intracellular pH, buffer capacity and contraction force of human skeletal muscle. Clin. Sci. (Lond.) 69, 505-510.
  • Humphreys, B.D., Jiang, L., Chernova, M.N. and Alper, S.L. (1994) Functional characterization and regulation by pH of murine AE2 anion exchanger expressed in Xenopus oocytes. Am. J. Physiol. 267, C1295-C1307.
  • Jacobs, M.H. and Stewart, D.R. (1942) The role of carbonic anhydrase in certain ionic exchanges involving the erythrocyte. J. Gen. Physiol. 25, 539-552.
  • Jennings, M.L. (1989) Structure and function of the red blood cell anion transport protein. Annu. Rev. Biophys. Biophys. Chem. 18, 397-430.
  • Jones, N.L. (1980) Hydrogen ion balance during exercise. Clin. Sci. (Lond.) 59, 85-91.
  • Jones, N.L. and Heigenhauser, G.J. (1996) Getting rid of carbon dioxide during exercise. Clin. Sci. (Lond.) 90, 323-335.
  • Juel, C., Hellsten, Y., Saltin, B. and Bangsbo, J. (1999) Potassium fluxes in contracting human skeletal muscle and red blood cells. Am. J. Physiol. 276, R184-R188.
  • Kifor, G., Toon, M.R., Janoshazi, A. and Solomon, A.K. (1993) Interaction between red cell membrane band-3 and cytoso-localization of pulmonary carbonic anhydrase in the cat. J. Memb. Biol. 134, 169-179.
  • Klocke, R.A. (1988) Velocity of CO2 exchange in blood. Annu. Rev. Physiol. 50, 625-637.
  • Kowalchuk, J.M., Heigenhauser, G.J., Sutton, J.R. and Jones, N.L. (1992) Effect of acetazolamide on gas exchange and acid-base control after maximal exercise. J. appl. Physiol. 72, 278-287.
  • Kowalchuk, J.M., Heigenhauser, G.J., Sutton, J.R. and Jones, N.L. (1994) Effect of chronic acetazolamide administration on gas exchange and acid-base control after maximal exercise. J. appl. Physiol. 76, 1211-1219.
  • Kowalchuk, J.M., Heigenhauser, G.J., Lindinger, M.I., Obminski, G., Sutton, J.R. and Jones, N.L. (1988a) Role of lungs and inactive muscle in acid-base control after maximal exercise. J. appl. Physiol. 65, 2090-2096.
  • Kowalchuk, J.M., Heigenhauser, G.J.F., Lindinger, M.I., Sutton, J.R. and Jones, N.L. (1988b) Factors influencing hydrogen ion concentration in muscle after intense exercise. J. appl. Physiol. 65, 2080-2089.
  • McKelvie, R.S., Lindinger, M.L., Heigenhauser, G.J.F. and Jones, N.L. (1991) Contribution of erythrocytes to the control of the electrolyte changes of exercise. Can. J. Physiol. Pharmacol. 69, 984-993.
  • McKenna, M.J., Heigenhauser, G.J., McKelvie, R.S., MacDougall, J.D. and Jones, N.L. (1997) Sprint training enhances ionic regulation during intense exercise in men. J. Physiol. 501, 687-702.
  • Maren, T.H. (1956) Carbonic anhydrase inhibition. IV. The effects of metabolic acidosis on the response to Diamox. Bull. Johns Hopkins Hosp. 98, 159-183.
  • Maren, T.H. (1967) Carbonic anhydrase: Chemistry, physiology, and inhibition. Physiol. Rev. 47, 595-781.
  • Pocker, Y. and Watamori, N. (1973) Stopped-flow studies of high pH activity and acetazolamide inhibition of bovine carbonic anhydrase. Enzyme-catalyzed hydrolyses of 3-pyridyl and nitro-3-pyridyl acetates. Biochemistry 12, 2475-2482.
  • Rose, R.J., Hodgson, D.R., Kelso, T.B., McCutcheon, L.J., Bayly, W.M. and Gollnick, P.D. (1990) Effects of acetazolamide on metabolic and respiratory responses to exercise at maximal O2 uptake. J. appl. Physiol. 68, 617-626.
  • Speake, P.F., Roberts, C.A. and Gibson, J.S. (1997) Effect of changes in respiratory blood parameters on equine red blood cell K–Cl cotransporter. Am. J. Physiol. 273, C1811-C1818.
  • Stager, J.M., Tucker, A., Cordain, L., Engebretsen, B.J., Brechue, W.F. and Matulich, C.C. (1990) Normoxic and acute hypoxic exercise tolerance in man following acetazolamide. Med. Sci. Sports Exerc. 22, 178-184.
  • Stämpfli, H.R., Misiaszek, S., Lumsden, J.H., Carlson, G.P. and Heigenhauser, G.J.F. (1999) Weak acid-concentration Atot and dissociation constant Ka of plasma proteins in racehorses. Equine. vet. J., Suppl. 30, 438-442.
  • Sterling, D., Reithmeier, R.A.F. and Joseph, R.C. (2001) Carbonic anhydrase: In the driver's seat for bicarbonate transport. JOP 2 ( Suppl . 4), 165-170.
  • Stewart, P.A. (1983) Modern quantitative acid-base chemistry. Can. J. Physiol. Pharmacol. 61, 1444-1461.
  • Strauss, M.B., Davis, R.K., Rosenbaum, J.D. and Rossmeisl, E.C. (1951) Water diuresis produced during recumbency by the intravenous infusion of isotonic saline solution. J. clin. Invest. 30, 862-868.
  • Swenson, E.R. (1998) Carbonic anhydrase inhibitors and ventilation: A complex interplay of stimulation and suppression. Eur. Respir. J. 12, 1242-1247.
  • Swenson, E.R. (2000) Respiratory and renal roles of carbonic anhydrase in gas exchange and acid-base regulation. In: The Carbonic Anhydrases: New Horizon, Eds: W.R.Chegwidden, N.D.Carter and Y.H.Edwards, Birkhauser, Oxford. pp 281-341.
  • Swenson, E.R. and Maren, T.H. (1978) A quantitative analysis of CO2 transport at rest and during maximal exercise. Respir. Physiol. 35, 129-159.
  • Vengust, M., Staempfli, H.R., Viel, L. and Heigenhauser, G.J. (2006a) Effects of chronic acetazolamide administration on fluid flux from the pulmonary vasculature at rest and during exercise in horses. Equine vet. J., Suppl. 36, 508-515.
  • Vengust, M., Staempfli, H.R., Viel, L. and Heigenhauser, G.J. (2006b) Transvascular fluid flux from the pulmonary vasculature at rest and during exercise in horses. J. Physiol. 570, 397-405.
  • Wagner, P.D., Gillespie, J.R., Landgren, G.L., Fedde, M.R., Jones, B.W., DeBowes, R.M., Pieschl, R.L. and Erickson, H.H. (1989) Mechanism of exercise-induced hypoxemia in horses. J. appl. Physiol. 66, 1227-1233.
  • Ward, S.A., Whipp, B.J., Koyal, S.N. and Wasserman, K. (1983) Influence of body CO2 stores on ventilatory dynamics during exercise. J. appl. Physiol. 55, 742-749.
  • Yin, K., McGiff, J.C. and Bell-Quilley, C.P. (1995) Role of chloride in the variable response of the kidney to cyclooxygenase inhibition. Am. J. Physiol. 268, F561-F568.