ABSTRACT
Studies in Wistar rats in conditions of free behavior showed that low-frequency stimulation of the paleocerebellar cortex (nodulus, uvula) (10-12 Hz, 0.5 msec) was accompanied by activation of spike discharges induced by systematic application of benzylpenicillin sodium (3,000,000 IU/kg). Facilitation of the formation of ictal discharges was also seen. High-frequency electrical stimulation (100-300 Hz, 0.25 msec) of the same structure was accompanied by suppression of the generation of spike potentials and prevented the development of ictal potentials. The antiepileptic effect of electrical stimulation was seen in conditions of relatively low levels of convulsive activity. Electrical stimulation decreased the frequency and amplitude of spike potentials in the interstimulus intervals and decreased the total duration of epileptic foci. Repeated electrical stimulation of the paleocerebellum after electrocoagulation did not produce any changes in convulsive activity.
Subject(s)
Cerebellar Cortex/radiation effects , Electric Stimulation , Seizures/therapy , Action Potentials/drug effects , Action Potentials/radiation effects , Animals , Cerebellar Cortex/drug effects , Cerebellar Cortex/physiopathology , Disease Models, Animal , Male , Penicillins , Rats , Rats, Wistar , Seizures/chemically induced , Time FactorsABSTRACT
It was shown that low-frequency electrical stimulation (ES) (10-12 Hz, 0.5 ms) of paleocerebellar cortex (nodulus, uvula) is followed by activation of spike discharges which were induced via i.p. administration of sodium benzilpenicillin salt to alert Wistar rats (300,000 IU/kg). The facilitation of ictal discharges generation was also seen in the course of such an ES. High-frequency (100-300 Hz, 0.25 ms) ES of the same structure was followed by suppression of spike discharges and prevented the ictal discharges precipitation. Antiseizure action was obvious under condition of relatively low level of epileptic activity generation. In the course of such ES the decreasing frequency and amplitude of spike discharges were noted during interstimuli periods. Besides, the life-span of seizure activity was shortened as well. The repeated paleocerebellar ES made after electrocoagulation of irritated tissue did not cause modulations of seizure activity.