Affiliation:
1. Cardiovascular Research Institute and Departments of Anesthesia and Medicine, University of California Medical Center, San Francisco, California
Abstract
In chronic acid-base disturbances, CSF pH was generally within the normal limits (7.30–7.36 units, being the range including two standard deviations of 12 normal subjects). The mean values of CSF and arterial pHH, respectively, were: 1) metabolic alkalosis, 7.337 and 7.523; 2) metabolic acidosis, 7.315 and 7.350; 3) respiratory alkalosis, 7.336 and 7.485; and 4) respiratory acidosis (untreated), 7.314 and 7.382. Other investigators report similar values. The constancy of CSF pH cannot be explained by a poorly permeable blood-CSF barrier in chronic metabolic acidosis and alkalosis, nor can it be explained by respiratory compensation. It cannot be explained by renal compensation in respiratory alkalosis (high altitude for 8 days), although it may be explained by renal compensation in respiratory acidosis. The former three states suggest that active transport regulation of CSF pH is a function of the blood-CSF barrier. Since CSF pH is constant, so also must that portion of the respiratory drive originating in the superficial medullary respiratory chemoreceptors be constant. Ventilation changes in chronic acid-base disturbances thus may result from changes in the activity of peripheral chemoreceptors, in response to changes in arterial pH, arterial PO2, and possibly in neuromuscular receptors. regulation of respiration; medullary respiratory; chemoreceptors; peripheral chemoreceptors; metabolic acidosis and alkalosis; respiratory acidosis and alkalosis; active transport; blood-brain barrier; pregnancy Submitted on July 27, 1964
Publisher
American Physiological Society
Subject
Physiology (medical),Physiology
Cited by
173 articles.
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