Hypoxia-induced hyperexcitability in vivo and in vitro in the immature hippocampus

Abstract

Hypoxia is the most common cause of neonatal seizures and encephalopathy. We have previously developed an in vivo experimental model of perinatal hypoxia which exhibits age-dependent acute and chronic epileptogenic effects. Between postnatal day (P) 10-12, the rat exhibits acute seizure activity during global hypoxia, while no seizures are induced at earlier (P5) or older (P60) ages. Rats exposed to hypoxia between P10-12 have reduced seizure thresholds to chemical convulsants in adulthood. The nonNMDA antagonists NBQX appears to suppress both the acute and long term epileptogenic effects of hypoxia. The age-dependency of the hyperexcitable response to hypoxia in vivo can be reproduced in vitro using hippocampal slices. In Mg(2+)-free media, hypoxia induced ictal discharges within 60 s of onset in 79% of slices from normal P10 rat pups compared to 11% of adult slices (p < 0.001). Model systems such as that described here allow for correlation of in vitro and in vivo electrophysiology and should provide data regarding the pharmacological and physiological characteristics of hypoxia-induced seizure activity in the immature brain which could ultimately be applied to therapeutic strategies.