V. Baltzer scite author profile

The influence of antiepileptics on the evolution of rat amygdaloid kindling was studied. Under placebo conditions clonic convulsions and a spike-wave EEG pattern developed. Diazepam, clonazepam, clobazam and phenobarbital were most effective in suppressing the evolution of kindling; the effects of valproate sodium, ethosuximide and acetazolamide were somewhat less pronounced in this respect. Carbamazepine, oxcarbazepine and phenytoin, on the other hand, enhanced kindling development, i.e. the increase in duration of after-discharge was faster than in the placebo group. The results indicate that under the above experimental conditions drugs with no anti-absence component can be distinguished from those with an anti-absence component. The mechanism of action underlying the observed effects is not yet known; the hypothesis that under special conditions protective inhibitory neuronal activity can develop to absence type seizures is proposed.

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The Beneficial Effects of Meprobamate on Delayed Response Performance in the Frontal Monkey

Weiskrantz

Gross

Baltzer

1965

Quarterly Journal of Experimental Psychology

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Previous studies of antagonistic treatments on delayed response performance by frontal monkeys suffer from a logical flaw in that the treatments may also improve the performance of normal monkeys. In a previous study (Gross and Weiskrantz, 1961) we have shown that meprobamate is without effect on delayed response in normal monkeys, but it does severely depress their discrimination performance. In the current study meprobamate is shown to produce a significant improvement in delayed response in each of three frontal monkeys. Nembutal is also effective. Various interpretations of the results are discussed, the view being favoured that the frontal monkey suffers from an excessive and inappropriately ordered intake of sensory information.

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The specific protective effect of diazepam and valproate against isoniazid-induced seizures is not correlated with increased GABA levels

Bernasconi

Klein

Martin

et al. 1985

J. Neural Transmission

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Amino acid concentrations were measured in the cortex, cerebellum and hippocampus of the mouse brain before and during seizures induced by isoniazid (250 mg/kg i.p.), an inhibitor of L-glutamate-1-decarboxylase (EC 4.1.1.15: GAD). Valproate sodium and diazepam dose-dependently delay the onset of convulsive fits caused by isoniazid. However, neither diazepam nor valproate prevented the decrease in GABA concentrations produced by isoniazid alone. Also, these antiepileptic drugs did not modify the rate of GABA depletion elicited by isoniazid. These results, observed in four different brain structures, strengthen those first obtained with beta-vinyllactic acid, another inhibitor of GAD.

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V. Baltzer

The biological activity of d-baclofen (Lipresal®)

Inhibition or enhancement of kindling evolution by antiepileptics

The Beneficial Effects of Meprobamate on Delayed Response Performance in the Frontal Monkey

The specific protective effect of diazepam and valproate against isoniazid-induced seizures is not correlated with increased GABA levels

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