Effect of prior high-intensity exercise on exercise-induced arterial hypoxemia in Thoroughbred horses

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Effect of prior high-intensity exercise on exercise-induced arterial hypoxemia in Thoroughbred horses

Murli Manohar, Thomas E. Goetz, and Aslam S. Hassan

Departments of Veterinary Biosciences and Clinical Medicine, College of Veterinary Medicine, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801

Strenuously exercising horses exhibit arterial hypoxemia and exercise-induced pulmonary hemorrhage (EIPH), the latter resultingfrom stress failure of pulmonary capillaries. The present studywas carried out to examine whether the structural changes in theblood-gas barrier caused by a prior bout of high-intensity short-termexercise capable of inducing EIPH would affect the arterial hypoxemiainduced during a successive bout of exercise performed at thesame workload. Two sets of experiments, double- and single-exercise-boutexperiments, were carried out on seven healthy, sound Thoroughbredhorses. Experiments were carried out in random order, 7 days apart.In the double-exercise experiments, horses performed two successivebouts (each lasting 120 s) of galloping at 14 m/s on a 3.5% uphillgrade, separated by an interval of 6 min. Exertion at this workloadinduced arterial hypoxemia within 30 s of the onset of gallopingas well as desaturation of Hb, a progressive rise in arterialPCO₂, and acidosis as exercise duration increased from 30 to 120s. In the single-exercise-bout experiments, blood-gas/pH dataresembled those from the first run of the double-exercise experiments,and all horses experienced EIPH. Thus, in the double-exerciseexperiments, before the horses performed the second bout of gallopingat 14 m/s on a 3.5% uphill grade, stress failure of pulmonarycapillaries had occurred. Although arterial hypoxemia developedduring the second run, arterial PO₂ values were significantly(P < 0.01) higher than in the first run. Thus prior exercise notonly failed to accentuate the severity of arterial hypoxemia,it actually diminished the magnitude of exercise-induced arterialhypoxemia. The decreased severity of exercise-induced arterialhypoxemia in the second run was due to an associated increasein alveolar PO₂, as arterial PCO₂ was significantly lower thanin the first run. Thus our data do not support a role for structuralchanges in the blood-gas barrier related to the stress failureof pulmonary capillaries in causing the exercise-induced arterialhypoxemia inhorses.

blood-gas tensions in exercise; repeat exercise effects; exertion

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