Abstract

Low frequency deep brain electrical stimulation (LFS) is a potential therapeutic strategy to control seizures in epilepsy patients. Given the functional connection of the olfactory bulb with the hippocampal formation, in this study the effect of applying LFS in the olfactory bulb on seizure severity, and learning and memory was investigated in hippocampal kindling. In male Wistar rats (250–300 g), a tripolar electrode was inserted in the CA1 region of the right hippocampus to apply kindling stimulations and record the afterdischarges (ADs). Two bipolar electrodes were also inserted bilaterally into the olfactory bulbs for applying LFS. In the kindled group, the animals received daily kindling stimulations to produce stage 5 seizures for three consecutive days. In one group of subjects, LFS was administered 2–3 min after the last kindling stimulation. Within this group, subjects were divided into two subgroups: one subgroup received two and the other subgroup received four packages of LFS protocol. Obtained data showed that bilateral LFS application to the left and right olfactory bulb reduced seizure severity. Among the protocols, applying four packages of LFS had a greater anticonvulsant effect compared to applying two packages LFS. Applying LFS in the olfactory bulb of kindled subject restored performance on measures that test short- and long-term memory – the Y maze and Morris water maze test – and applying four packages of LFS was more effective than two. These results indicated that applying LFS to the olfactory bulb had anticonvulsant effects and ameliorated the seizure-induced impairment of working and spatial memory. These effects appear to be depended on the number of applied LFS and were greater by increasing the number of LFS.

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