The CSF/Blood Potential in Sustained Acid‐Base Changes in the Rat. With Calculations of Electrochemical Potential Differences for H+and HCO‐3

Abstract

The electrical D.C. potential difference between cisternal cerebrospinal fluid and external jugular blood was measured in rats during sustained acid‐base changes. One group, serving as a control series, was given an artificial extracellular fluid i.p., while two other groups were made acidotic or alkalotic by means of i.p. injections of NH₄Cl or NaHCO₃ solutions. In the last two groups NH₄Cl or NaHCO₃ was given, but Con was simultaneously administered so as to keep either the plasma bicarbonate or the plasma pH constant. In all groups the CSF/ plasma potential was permanently changed in relation to the arterial plasma pH, but there was a larger potential change in alkalosis (about 50 mV/pH unit) than in acidosis (about 30 mV/pH unit). Calculations of electrochemical potential differences for H+and HCO₃^‐between CSF and plasma showed no significant differences in nonrespiratory acidosis and alkalosis but significant increases in hypercapnia. The results do not support the theory that an active H+transport regulates the CSF pH to constancy.