Human brain blood flow and metabolism during isocapnic hyperoxia: the role of reactive oxygen species

Abstract

It is unknown whether excessive reactive oxygen species (ROS) production drives the isocapnic hyperoxia (IH)‐induced decline in human cerebral blood flow (CBF) via reduced nitric oxide (NO) bioavailability and leads to disruption of the blood–brain barrier (BBB) or neural‐parenchymal damage. Cerebral metabolic rate for oxygen (CMR O2 ) and transcerebral exchanges of NO end‐products, oxidants, antioxidants and neural‐parenchymal damage markers were simultaneously quantified under IH with intravenous saline and ascorbic acid infusion. CBF and CMR O2 were reduced during IH, responses that were followed by increased oxidative stress and reduced NO bioavailability when saline was infused. No indication of neural‐parenchymal damage or disruption of the BBB was observed during IH. Antioxidant defences were increased during ascorbic acid infusion, while CBF, CMR O2 , oxidant and NO bioavailability markers remained unchanged. ROS play a role in the regulation of CBF and metabolism during IH without evidence of BBB disruption or neural‐parenchymal damage.