Abstract
The in vitro antiepileptic activity of the synthetic glucocorticoid dexamethasone (DEX) was tested in rat hippocampal organotypic cultures on the field potential epileptiform activity induced by picrotoxin (PTX). Spontaneous as well as evoked electrophysiological activities have been studied through the extracellular multirecording Physiocard® system. PTX typically elicited seizure-like discharges (epileptiform bursts) in the hippocampus neurons. Those epileptiform bursts can be divided in two groups, one rhythmic which lasted 43 ± 24s (mean ± sd) at a frequency of 4.6 ± 1.9Hz and the other arhythmic composed of population spikes, which occurred during 14.3 ± 6.9min. In the presence of DEX at different concentrations, results obtained were: 1) DEX 1μM decreased the occurrence of the two different groups of spontaneous epileptiform bursts, most of the time to zero. 2) DEX 50μM prevented totally the occurrence of epileptiform bursts. 3) DEX 50μM contrarily to DEX 1μM avoided the decrease of evoked field potentials' amplitude induced by PTX 3μM on all simultaneous recorded points. Those results suggest that synthetic glucocorticoid DEX presents an acute antiepileptic effect in a dose dependent manner on the hippocampus tissue.
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