Changes in Extra- and Intracellular pH in the Brain during and following Ischemia in Hyperglycemic and in Moderately Hypoglycemic Rats

Abstract

Incomplete forebrain ischemia of 15-min duration was induced in rats made hyperglycemic or moderately hypoglycemic prior to ischemia. Tissue CO₂ tension, CO₂ content, labile tissue metabolites, and extracellular pH (pH_e) were measured, and intracellular pH (pH_i) was derived by calculation on the assumption that cerebral intracellular fluids can be lumped into one space. In hypoglycemic animals, mean tissue lactate content increased from 2 to 10 μmol g⁻¹. Tissue CO₂ content was virtually unchanged and the CO₂ tension increased from ∼50 to ∼145 mm Hg. In hyperglycemic animals, tissue lactate content rose to 20 μmol g⁻¹, and the CO₂ content decreased by 25%, demonstrating that some CO₂ was lost to the blood supplied by the remaining perfusion. Accordingly, tissue CO₂ tension did not rise above 200 mm Hg. pH_e was reduced in proportion to the amount of lactate accumulated, the values obtained in hypo- and hyperglycemic animals showing relatively little scatter (6.76 ± 0.03 and 6.25 ± 0.04, respectively). In hypoglycemic animals the extracellular HCO⁻₃ concentration was virtually unchanged, demonstrating that any influx of lactic acid from the cells must have been accompanied by H⁺ efflux and/or HCO⁻₃ influx via independent routes. In hyperglycemic animals [HCO⁻₃]_e fell by >10 μmol ml⁻¹. In both groups [HCO⁻₃]_e was reduced during the first 5 min of recovery. Recovery of pH_e was slower in hyper- than in hypoglycemic animals. During ischemia calculated pH_i fell to 6.37 ± 0.04 and 5.95 ± 0.06 in hypo- and hyperglycemic animals, respectively. Differences in pH_i were maintained for the first 15 min of recovery, but in both hypo- and hyperglycemic animals pH_i had normalized after 30 min. It is concluded that preischemic hyperglycemia leads to a more pronounced intra- and extracellular acidosis than normo- and hypoglycemia, an acidosis that also resolves more slowly during recirculation.