The Relationship between Arterial PO2 and Cerebral Blood Flow in Hypoxic Hypoxia

Abstract

The relationship between arterial oxygen tension (Pa_O2) and cerebral blood flow (CBF) in hypoxic hypoxia was studied in artificially ventilated and normocapnic rats. Changes in CBF were evaluated from arterio-venous differences in oxygen content after 2, 5, 15 and 30 min exposure to Pa_O2 85, 75, 55, 45, 35 and 25 mm Hg. In separate experiments the Pa_O2 was decreased to 25 mm Hg for 1, 2, 5, 15 and 30 min in animals in which Pa_CO2 was allowed to fall by 5–10 mm Hg. There was a small, gradual increase in CBF when Pao, was lowered in steps from 130 to 55 mm Hg, and a more pronounced increase at P_O2 values below 50 mm Hg. At Pa_O2 25 mm Hg CBF increased to values of 500% of normal. Significant increases in CBF were recorded at Pa_O2 values of 85 and 75 mm Hg in spite of the fact that previous studies have failed to record an elevatad tissue lactate content at these P_O2 levels, and in spite of an unchanged cerebral venous P_O2. When the Pa_O2 was reduced to 25 mm Hg CBF increased markedly already at 1 and 2 min, and this increase in CBF occurred even if Pa_CO2 was allowed to fall by 5–10 mm Hg. Previous results have shown that in such short periods enough lactic acid is not formed to induce a net tissue acidosis. The results thus give no support to the hypothesis that cerebral hyperemia in hypoxia is coupled to accumulation of lactic acid in the tissue.