M. G. Zhvaniya scite author profile

Quantitative analysis of the main cells and interneurons in different layers and fields of Ammon's horn, the hilus, and dentate gyrus was performed two weeks and one month after kindling, i.e., specific electrical stimulation of the ventral hippocampus. At both experimental time points, cells numbers were significantly decreased at all levels of the areas studied except the marginal layer of field CA4. Thus, in this model of experimental epilepsy, the process of epileptogenesis involved both interneurons and main cells in the hippocampus. The possible reorganization of intrahippocampal circuits and their involvement in the increased excitability characteristic of epilepsy are discussed.

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Ultrastructure of Hippocampal Field CA1 in Rats after Status Epilepticus Induced by Systemic Administration of Kainic Acid

Kotariya¹,

Bikashvili²,

Zhvaniya³

et al. 2009

Neurosci Behav Physi

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The ultrastructure of hippocampal field CA1 in rats was studied 14 days after status epilepticus induced by administration of kainic acid. Structural changes were seen in 40% of cells, predominantly interneurons, which showed both reversible changes (mitochondria with an electron-dense matrix or small numbers of short cristae, moderate dilation of rough endoplasmic reticulum (RER) cisterns, and small numbers of ribosomes) and more significant abnormalities: swollen mitochondria with very small numbers of cristae, which were partially degraded, some with damaged mitochondrial membranes, along with pathologically damaged RER components and focal or peripheral chromatolysis. Chromatolyzed areas sometimes contained membrane-like includes and vacuoles. In addition, the neuropil contained occasional large osmiophilic formations surrounded by astrocyte processes with accumulations of glycogen or gliofibrils. Synaptoarchitectonics were also altered. Asymmetrical synapses were often seen on small dendrites and spines, with highly osmiophilic postsynaptic zones, their synaptic terminals containing numerous synaptic vesicles and large vesicles with electron-dense cores. Some presynaptic endings showed clear signs of classical dark-type degeneration. As the nucleus remained intact in all types of altered neurons, it appears that most cells underwent pathological changes of the necrotic type.

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M. G. Zhvaniya

Cellular Composition of the Piriform Cortex of the Rat Brain in Experimental Epilepsy

Effect of acoustic stimulation on cell composition of auditory brain structures in Krushinskii-Molodkina rats

Kindling-induced hippocampal cell death in rats

Ultrastructure of Hippocampal Field CA1 in Rats after Status Epilepticus Induced by Systemic Administration of Kainic Acid

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