European journal of pharmacology
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The protective and adverse effect potentials of levetiracetam ((S)-alpha-ethyl-2-oxo-pyrrolidine acetamide) in rodent models of seizures and epilepsy were compared with the profile of several currently prescribed and newly developed antiepileptic drugs. Levetiracetam was devoid of anticonvulsant activity in the acute maximal electroshock seizure test and in the maximal pentylenetetrazol seizure test in mice (up to 540 mg/kg, i.p.) but exhibited potent protection against generalised epileptic seizures in electrically and pentylenetetrazol-kindled mice (ED50 values = 7 and 36 mg/kg, respectively, i.p.). This differs markedly from established and most new antiepileptic drugs which induce significant protection in both the acute seizure tests and the kindling models. ⋯ Characteristics are a general lack of anticonvulsant activity against maximal, acute seizures and selective protection with a very high safety margin in genetic and kindled animals and against chemoconvulsants producing partial epileptic seizures. This activity differs markedly from that of the established and newly introduced antiepileptic drugs and appears to derive from the parent compound since its major metabolite was inactive in all models studied. Together these results therefore suggest that levetiracetam may offer an effective, broad-spectrum treatment of epileptic seizures in patients, with a minimum of adverse effects.
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A great deal of uncertainty persists regarding the exact nature of the interaction between autonomic nervous system activity and thyroid hormones in the control of heart rate and blood pressure. We now report on thyrotoxicosis produced by daily intraperitoneal (i.p.) injection of L-thyroxine (0.5 mg/kg body wt. in 1 ml of 5 mM NaOH for 5 days). Control rats received i.p. daily injections of the thyroxine solvent. ⋯ These data show a functional diminution of the vascular and cardiac sympathetic tone in early experimental hyperthyroidism. The marked rise in the intrinsic heart rate could be the main determinant of tachycardia. The blood pressure elevation may reflexly induce vagal activation and sympathetic (vascular and cardiac) inhibition.