Pharmacoltical profiles of 5-phenylmethylenehydatoin and its methoxy substituted derivatives.

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5-Phenylmethylenehydantoin (5-PMH) and 5 (o-methoxyphenyl)-methylenehydantoin (5-o-MPMH) were found to have anticonvulsant activities with ED50 values of 48 and 73 mg/kg as compared to 11 mg/kg for phenytoin. The log dose-logit plots yielded nearly parallel straight lines for all three compounds, indicating that they may have the same mechanism of action. The meta and paramethoxy isomers of 5-o-MPMH, 5-m-MPMH and 5-p-MPMH, did not show any anticonvulsant activity up to 200 mg/kg. In addition, 5-o-MPMH induced neurological deficits as shown by marked effects on rota-rod performance in the dose range of 50-90 mg/kg. Above 100 mg/kg, 5-o-MPMH caused a loss of the righting reflex in mice for up to 2.3 hr at 200 mg/kg. In contrast, 5-PMH, 5-m-MPMH and 5-p-MPMH may have slight sedative effects, but only 5-m-MPMH decreased rota-rod performance significantly at 90 mg/kg. None of the three was hypnotic up to 200 mg/kg in dose. It is therefore inferred that 5-o-MPMH causes general CNS depression via a mechanism distinct from that of its anticonvulsant effects which is shared by phenytoin and 5-PMH. 5-o-MPMH increased jumping latency in the hot plate test in the same dose range as it causes neurological deficit. 5-o-MPMH also appeared to have a similar degree of toxicity in mice as diazepam judging from rough estimates of their LD50/HD85 ratios.
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