Objective: Electroencephalogram (EEG) recordings exhibit stereotypic alterations during transient ischemia in mammals. One disadvantage of using in vitro models for ischemia studies is the lack of a sensitive electrophysiological measure for the degree of ischemic damage to a large population of neurons. The present study examined effects of hypoglycemia, hypoxia or both on an in vitro micro-EEG model, to determine whether this model provides a sensitive measure.
Methods: Theta frequency (4-8 Hz) micro-EEG oscillations were evoked in rat neocortical brain slices using the cholinergic agonist carbachol (100 microM) and the GABA(A) antagonist bicuculline (10 microM). Extracellular field micro-EEG signals and whole cell patch clamp recordings were used to monitor electrical activity.
Results: Upon removal of oxygen and/or glucose, theta oscillation amplitudes progressively declined to isoelectric levels. Low frequency delta oscillations (0.5-3.0 Hz) and burst suppression discharges were prominent during hypoglycemic episodes and upon recovery. Time to onset of isoelectric activity was faster in slices deprived of both glucose and oxygen (7.0 +/- 1.8 min) and oxygen alone (5.0 +/- 1.5 min) compared to hypoglycemia alone (25.6 +/- 3.8 min, P < 0.01, ANOVA). Hypoxia and hypoglycemia-induced isoelectric activity occurred prior to significant population spike depression from control levels (87.7 +/- 16.9% control amplitude, P > 0.35 (t test compared with control) for hypoglycemia; 93.6 +/- 27.0%, P > 0.72 for hypoxia). Spreading depression (SD) was observed in 11/12 (91.7%) slices deprived of both sugar and oxygen, but not in hypoxic (0/4) or hypoglycemic (0/5) slices. In all cases, SD occurred later than isoelectric activity. Theta oscillations recovered within 10 min in 12/13 (92.3%) slices that did not undergo SD, but slices that underwent SD failed to recover theta activity (0/4), though all (4/4) at least partially recovered the population spike (>40%).
Conclusions: These results suggest that synchronized micro-EEG activity may be a useful and sensitive indicator of early-onset and possibly reversible ischemic damage.