Cerebral Blood Flow and Oxygen Consumption in the Rat in Hypoxic Hypoxia

Abstract

In order to measure cerebral blood flow (CBF) and cerebral metabolic rate for oxygen (CMRo₂) at pronounced degrees of hypoxic hypoxia the Pao₂ of artificially ventilated and normocapnic rats was reduced to between 47 and 22 mm Hg for 15–25 min with subsequent measurements of CBF, using a ¹³³Xenon modification of the Kety and Schmidt technique, and of the arteriovenous difference in oxygen content, the venous blood being obtained from the superior sagittal sinus. When the Pao₂ was reduced to minimal values of 22 mm Hg CBF increased 4‐ to 6‐fold, the increase in CBF being unrelated to changes in blood pressure or Paco₂. The CMRo₂ remained unchanged at all levels of hypoxia. It is concluded that the maintenance of a normal, or near‐normal, cerebral energy state even at extreme degrees of hypoxic hypoxia depends solely on a homeostatic increase in CBF.