1Lindinger, MI (1999). Exercise in the heat: thermoregulatory limitations to performance in humans and horses. Canadian Journal of Applied Physiology 24: 135–146.
2Kozlowski, S and Saltin, B (1964). Effect of sweat loss on body fluids. Journal of Applied Physiology 19: 1119–1124.
3Lundvall, J, Mellander, S, Westling, H and White, T (1972). Fluid transfer between blood and tissues during exercise. Acta Physiologica Scandinavica 85: 258–269.
4Nose, H, Mack, GW, Shi, XR and Nadel, ER (1988). Shift in body fluid compartments after dehydration in humans. Journal of Applied Physiology 65: 318–324.
5Maw, GJ, MacKenzie, IL and Taylor, NAS (1998). Human body-fluid distribution during exercise in hot, temperate and cool environments. Acta Physiologica Scandinavica 163: 297–304.
6Cornish, BH, Wotton, MJ, Ward, LC, Thomas, BJ and Hills, AP (2001). Fluid shifts resulting from exercise in rats as detected by bioelectrical impedance. Medicine and Science in Sports and Exercise 33: 249–254.
7Lindinger, MI, Heigenhauser, GJF, McKelvie, RS and Jones, NL (1990). Role of non-working muscle on blood metabolites and electrolytes during and following intense intermittent exercise. American Journal of Physiology: Regulatory, Integrative and Comparative Physiology 258: R1486–R1494.
8Lindinger, MI, Spriet, LL, Hultman, E, Putman, T, McKelvie, RS, Lands, LC et al. (1994). Plasma volume and ion regulation during exercise after low- and high-carbohydrate diets. American Journal of Physiology: Regulatory, Integrative and Comparative Physiology 266: R1896–R1906.
9Gosmanov, AR, Lindinger, MI and Thomason, DB (2003). Riding the tides: [K×] and volume regulation by muscle Na×-K×-2Cl− cotransport activity. News in Physiological Sciences 18: 196–200.
10Sjogaard, G and Saltin, B (1982). Extra- and intracellular water spaces in muscles of man at rest and with dynamic exercise. American Journal of Physiology: Regulatory, Integrative and Comparative Physiology 243: R271–R280.
11Lindinger, MI and Heigenhauser, GJF (1988). Ion fluxes during tetanic stimulation in the isolated perfused rat hindlimb. American Journal of Physiology: Regulatory, Integrative and Comparative Physiology 254: R117–R126.
12Lindinger, MI, Geor, RJ, Ecker, GL and McCutcheon, LJ (1995). Plasma volume and ions during exercise in cool dry, hot dry and hot humid conditions. Equine Veterinary Journal Supplement 20: 133–139.
13Lindinger, MI, McCutcheon, LJ, Ecker, GL and Geor, RJ (2000). Heat acclimation improves regulation of plasma volume and plasma Na× content during exercise in horses. Journal of Applied Physiology 88: 1006–1013.
14Forro, M, Cieslar, S, Ecker, GL, Walzak, A, Hahn, J and Lindinger, MI (2000). Total body water and ECFV measured using bioelectrical impedance analysis and indicator dilution in horses. Journal of Applied Physiology 89: 663–671.
15Foldager, N and Blomqvist, CG (1991). Repeated plasma volume determination with the Evans blue dye dilution technique: the method and a computer program. Computing in Biology and Medicine 21: 35–41.
16Chatterjee, MS, Abdel-Rahman, M, Bhandal, A, Klein, P and Bogden, J (1988). Amniotic fluid and thiocyanate in pregnant women who smoke. Journal of Reproductive Medicine 33: 417–420.
17Coenen, M (1992). Water and electrolyte metabolism in horses during long-lasting exercise. Proceedings: Exercise Physiology and Physical Performance in Farm Animals – Comparative and Specific Aspects Berne, Switzerland: University of Berne, pp. 21–36.
18McCutcheon, LJ, Geor, RJ, Hare, MJ, Ecker, GL and Lindinger, MI (1995). Sweat composition and ion losses during exercise in heat and humidity. Equine Veterinary Journal Supplement (20), 153–157.
19Carlson, GP and Mansmann, RA (1964). Serum electrolyte and plasma protein alterations in horses used in endurance rides. Journal of the American Veterinary Medical Association 165: 262–264.
20Haskell, A, Nadel, ER, Stachenfeld, NS, Nagashima, K and Mack, GW (1997). Transcapillary escape rate of albumin in humans during exercise-induced hypervolemia. Journal of Applied Physiology 83: 407–413.
21Wu, J and Mack, GW (2001). Effect of lymphatic outflow pressure on lymphatic albumin transport in humans. Journal of Applied Physiology 91: 1223–1228.
22Naylor, JR, Bayly, WM, Schott, HC 2nd, Gollnick, PD and Hodgson, DR (1993). Equine plasma and blood volumes decrease with dehydration but subsequently increase with exercise. Journal of Applied Physiology 75: 1002–1008.
23McCutcheon, LJ, Geor, RJ, Ecker, GL and Lindinger, MI (1999). Sweating responses of horses during 21 days of heat acclimation. Journal of Applied Physiology 87: 1843–1851.
24Costill, DL (1977). Sweating: its composition and effects on body fluids. In: Milvy, P (Ed.) The Marathon: Physiological, Medical, Epidemiological, and Psychological Studies New York: New York Academy of Sciences, pp. 160–174.
25McKeever, KH, Hinchcliff, KW, Reed, SM and Robertson, JT (1993). Plasma constituents during incremental treadmill exercise in intact and splenectomised horses. Equine Veterinary Journal 25: 233–236.
26Roy, BD, Green, HJ and Burnett, M (2001). Prolonged exercise following diuretic-induced hypohydration effects on fluid and electrolyte hormones. Hormone and Metabolic Research 33: 540–547.
27Magnusson, OG, Kaijser, L, Isberg, B and Saltin, B (1994). Cardiovascular responses during one- and two-legged exercise in middle-aged men. Acta Physiologica Scandinavica 150: 353–362.
28Gunn, HM (1987). Muscle, bone and fat proportions and muscle distribution of Thoroughbreds and other horses. In: Gillespie, JR & Robinson, NE (eds), Equine Exercise Physiology 2 Davis, CA: ICEEP Publications, pp. 253–264.
29Lindinger, MI, Hawke, TJ, Lipskie, SL, Schaefer, HD and Vickery, L (2002). K× transport and volume regulatory response by NKCC in resting rat hindlimb skeletal muscle. Cellular Physiology and Biochemistry 12: 279–292.
30Wong, JA, Gosmanov, AR, Schneider, EG and Thomason, DB (2001). Insulin-independent, MAPK-dependent stimulation of NKCC activity in skeletal muscle. American Journal of Physiology: Regulatory, Integrative and Comparative Physiology 281: R561–R571.
31Kerr, MG and Snow, DH (1982). Alterations in haematocrit, plasma proteins and electrolytes in horses following the feeding of hay. Veterinary Record 110: 538–540.
32Ecker, G and Lindinger, MI (1995). Effects of terrain, speed, temperature and distance on water and ion losses in endurance horses. Equine Veterinary Journal Supplement (18), 298–305.