Relative Hypoperfusion in Rat Cerebral Cortex during Recurrent Seizures

Abstract

Focal cortical CBF and oxygenation were measured in rats during repetitive seizures to determine whether CBF is maintained above a critical level for adequate delivery of O₂. Cerebral oxygenation was determined by measuring relative changes in the oxidation/reduction level of cytochrome aa₃ and CBF was measured by the washout of H₂. During early seizures, cortical CBF increased to 350% of control and cortical oxygenation also rose markedly. During later seizures, both the increases in CBF and in cortical oxygenation were attenuated progressively. This was accompanied also by attenuation of the associated increases in MABP. Cortical oxygenation decreased during a seizure if the increase in CBF failed to exceed 150–200% of control, defining the critical CBF value. Ventilating the rats on 97% O₂ resulted in restoration of the seizure-associated increases in cortical oxygenation in 50% of the cases. The elevation of inspired O₂ was effective only if CBF increased once again above 150–200% of control, confirming that the critical CBF lies within this range of values. We conclude that CBF must rise >200% of control levels to provide sufficient O₂ to meet the enhanced metabolic requirements of repetitive seizures.