Affiliation:
1. Department of Physiology, University of Maryland School of Medicine, Baltimore, Maryland
Abstract
Exposure of restrained, unanesthetized dogs to a simulated altitude of 30,000 ft consistently resulted in respiratory alkalosis and marked hypokalemia. When alkalosis was prevented by increasing the pCO2 of inspired air during decompression, a smaller but statistically significant decrease in plasma potassium concentration still occurred. In comparison with previous studies, the hypokalemia observed in these restrained, unanesthetized dogs was greater than that found in either unrestrained or anesthetized dogs subjected to the same decompression stress. Consequently, the suggestion is made that in the unanesthetized, restrained dog, the hypokalemic response not attributable to respiratory alkalosis is of adrenal mediation and results from the "stress" of restraint plus hyperventilation, rather than to hypoxemia or the decompression stress, per se.
Publisher
American Physiological Society
Cited by
6 articles.
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1. Respiratory Acid-Base Disorders;Fluid, Electrolyte, and Acid-Base Disorders in Small Animal Practice;2012
2. Respiratory Acid-Base Disorders;Fluid, Electrolyte, and Acid-Base Disorders in Small Animal Practice;2006
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4. Enzymatic regulation of electrolyte balance in rats exposed to varying levels of acute hypoxia;American Journal of Physiology-Legacy Content;1973-10-01
5. Elektrolytverschiebungen bei akuter respiratorischer Alkalose;Pneumonologie Pneumonology;1971-06