Effect of hyperoxia, hypercapnia, and hypoxia on cerebral interstitial oxygen tension and cerebral blood flow

The assessment of cerebral interstitial oxygen tension (piO(2)) can provide valuable information regarding cerebrovascular physiology and brain functi on. Compartment-specific cerebral piO(2) was measured by F-19 NMR following the infusion of an oxygen-sensitive perfluorocarbon directly into the inte rstitial and ventricular space of the in vivo rat brain. F-19 T-1 measureme nts were made and cerebral piO(2) were obtained through in vitro calibratio ns. The effects of graded hyperoxia, hypercapnia, and hypoxia on piO(2) and cerebral blood flow (CBF) were investigated. Under normoxia (arterial pO(2 ) similar to 120 mm Hg), piO(2) was similar to 30 mm Hg and jugular venous pO(2) was similar to 50 mm Hg, During hyperoxia (arterial pO(2) = 90-300 mm Hg), piO(2) increased linearly with the arterial pO(2). Following hypercap nia (arterial pCO(2) = 20-60 mm Hg), the piO(2) increased sigmoidally with increasing CBF, With hypoxia (arterial pO(2) = 30-40 mm Hg), CBF increased similar to 56% and piO(2) decreased to similar to 15 mm Hg, The hypoxia-ind uced CBF increase was effective to some extent in compensating for the redu ced piO(2). This methodology may prove useful for investigating cerebral pi O(2) under pathologically or functionally altered conditions. Magn Reson Me d 45:61-70, 2001, (C) 2001 Wiley-Liss, Inc.