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1.
Sci Rep ; 8(1): 4193, 2018 03 08.
Artículo en Inglés | MEDLINE | ID: mdl-29520076

RESUMEN

The role of GABAergic neurotransmission on epileptogenesis has been the subject of speculation according to different approaches. However, it is a very complex task to specifically consider the action of the GABAa neurotransmitter, which, in its dependence on the intracellular level of Cl-, can change its effect from inhibitory to excitatory. We have developed a computational model that represents the dentate gyrus and is composed of three different populations of neurons (granule cells, interneurons and mossy cells) that are mutually interconnected. The interconnections of the neurons were based on compensation theory with Hebbian and anti-Hebbian rules. The model also incorporates non-synaptic mechanisms to control the ionic homeostasis and was able to reproduce ictal discharges. The goal of the work was to investigate the hypothesis that the observed aberrant sprouting is promoted by GABAa excitatory action. Conjointly with the abnormal sprouting of the mossy fibres, the simulations show a reduction of the mossy cells connections in the network and an increased inhibition of the interneurons as a response of the neuronal network to control the activity. This finding contributes to increasing the changes in the connectivity of the neuronal circuitry and to increasing the epileptiform activity occurrences.


Asunto(s)
Giro Dentado , Modelos Neurológicos , Neurogénesis , Estado Epiléptico , Transmisión Sináptica , Ácido gamma-Aminobutírico/metabolismo , Giro Dentado/metabolismo , Giro Dentado/patología , Giro Dentado/fisiopatología , Humanos , Interneuronas/metabolismo , Interneuronas/patología , Red Nerviosa/metabolismo , Red Nerviosa/patología , Red Nerviosa/fisiopatología , Estado Epiléptico/metabolismo , Estado Epiléptico/patología , Estado Epiléptico/fisiopatología , Sinapsis/metabolismo , Sinapsis/patología
2.
Comput Intell Neurosci ; 2013: 949816, 2013.
Artículo en Inglés | MEDLINE | ID: mdl-23431287

RESUMEN

Structural rearrangement of the dentate gyrus has been described as the underlying cause of many types of epilepsies, particularly temporal lobe epilepsy. It is said to occur when aberrant connections are established in the damaged hippocampus, as described in human epilepsy and experimental models. Computer modelling of the dentate gyrus circuitry and the corresponding structural changes has been used to understand how abnormal mossy fibre sprouting can subserve seizure generation observed in experimental models when epileptogenesis is induced by status epilepticus. The model follows the McCulloch-Pitts formalism including the representation of the nonsynaptic mechanisms. The neuronal network comprised granule cells, mossy cells, and interneurons. The compensation theory and the Hebbian and anti-Hebbian rules were used to describe the structural rearrangement including the effects of the nonsynaptic mechanisms on the neuronal activity. The simulations were based on neuroanatomic data and on the connectivity pattern between the cells represented. The results suggest that there is a joint action of the compensation theory and Hebbian rules during the inflammatory process that accompanies the status epilepticus. The structural rearrangement simulated for the dentate gyrus circuitry promotes speculation about the formation of the abnormal mossy fiber sprouting and its role in epileptic seizures.


Asunto(s)
Giro Dentado/fisiopatología , Epilepsia/fisiopatología , Red Nerviosa/fisiología , Redes Neurales de la Computación , Vías Nerviosas/fisiología , Sinapsis/fisiología , Algoritmos , Simulación por Computador , Fenómenos Electrofisiológicos , Humanos , Interneuronas/fisiología , Modelos Neurológicos , Fibras Musgosas del Hipocampo/fisiología , Agonistas Muscarínicos/farmacología , Neuronas/fisiología , Pilocarpina/farmacología , Receptores de GABA-A/fisiología , Estado Epiléptico/fisiopatología , Transmisión Sináptica
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