Multiparametric monitoring of brain oxygen balance under experimental and clinical conditions

Abstract

In order to evaluate the relationship between brain oxygen supply and demand (02 balance) in real time; it is necessary to use a multiparametric monitoring approach. Cerebral blood flow (CBF) is a representative parameter of O2 supply. The extracellular level of K+ is a reliable indicator of O2 demand since more than 60% of the energy consumed by the brain is utilized by active transport processes. Mitochondrial NAoH redox state can represent the balance between O2 supply and demand. In order to monitor the brain of experimental animals or patients; we constructed the multiparametric assembly (MPA) and the following parameters were monitored simultaneously and in real time: CBFI CBVI NAoH redox statel extracellular K+ I DC potentiall fECI tissue temperature and ICP. Animals were exposed to hypoxial ischemia; hypercapnial hyperoxia and spreading depression (SO) and the relative changes in CBF and NAOH were calculated and found to be significant indicators of brain energy state. Monitoring these two parameters increases the possibility of differentiating between various pathophysiological states. Each added parameter increases the power of diagnosis and determination of the functional state of the brain. Preliminary results obtained in patients monitored in the ICU or in the OR show that the responses to hypercapnial spreading depression or ischemia are similar to those measured in experimental animals. [Neural Res 1998; 20 (Suppl 1): 576–580]