Absence epilepsy is a specific generalized non-convulsive form occurring almost exclusively in children and adolescents. It is traditionally thought that the resulting seizure is completely generalized in the cortex of both hemispheres, as seen in humans on surface electroencephalograms and magnetoencephalograms. However, most studies were performed on animals, mainly rats – genetic (WAG/Rij and GAERS lines) and pharmacological models, since signals not only from the cortex, but also from subcortical structures such as the thalamus must be measured, what cannot be done on humans, who have no medical indications for intracranial surgery. In animals, measurements of local field potentials were almost always made from one hemisphere in order to cover the maximum number of brain structures involved. At the same time, the degree of synchrony of seizure onsets and terminations in different hemispheres in animals was practically not studied, and the markup itself in the vast majority of cases was done on the basis of one channel from motor or somato-sensory cortex. This work aims to reveal differences and similarities in the course of spike-wave discharges (the main encephalographic marker of absence seizures) in the cortex of the two hemispheres in a known pharmacological model of rats exposed to pentylentetrazole. For discharge detection, a method of automatic discharge marking is proposed and its sensitivity and specificity are evaluated using records of nine animals. We used it to mark seizures in symmetrical cortical sites from both hemispheres separately. According to the results of the analysis of seizure duration it turned out that for five out of nine animals the distribution of discharges significantly differed between the hemispheres, and for the other four was equal. Consequently, in the rat model, spike-wave activity may be generalized both symmetrically and asymmetrically, which may be due to individual peculiarities or different discharge triggering scenarios.
Read full abstract