The sleep-wakefulness cycle of Wistar rats with spontaneous absence-like epilepsy

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Abstract

Possible interactions between the sleep-wakefulness cycle and a new kind of spontaneous epilepsy, expressed as absence-like seizures and spike-wave bursts in FMUSP rats, are evaluated. The electro-oscillograms of some cortical and subcortical regions of the brain were recorded, as well as head, rostrum/vibrissae and eye movements. Recordings were performed uninterruptedly during 24 hours. The seizures were mostly concentrated in the wakefulness state but they could occur in any other phase, including paradoxical sleep. After the seizure, the rats usually returned to the same phase that was interrupted, although they often returned to wakefulness. There was an intense fragmentation of the sleepwakefulness cycle. The incidence of each cycle phase was significantly reduced, except SIII of synchronized sleep and paradoxical sleep, thus maintaining the overall duration and architecture of the sleep-wakefulness cycle. The fragmentation of the cycle seems to be due to an impairment of the very processes that generate sleep and wakefulness. Electrophysiological and behavioral profiles of the FMUSP rats recommend accurate and comprehensive study of the animal model owing to its resemblance to seizures in humans and also to discrepancies with existing genetic or experimental epilepsy models.

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André, E. S., Bruno-Neto, R., do Valle, A. C., & Timo-Iaria, C. (2015). The sleep-wakefulness cycle of Wistar rats with spontaneous absence-like epilepsy. Acta Scientiarum - Biological Sciences, 37(3), 367–376. https://doi.org/10.4025/actascibiolsci.v37i3.26908

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