Mismatch Negativity: analysis of temperature and auditory training effects from an experimental study model. / Mismatch negativity: análise dos efeitos da hipotermia e do treinamento auditivo a partir de um modelo de estudo experimental

AUTOR(ES)

Renata Rodrigues Moreira

DATA DE PUBLICAÇÃO

2008

RESUMO

INTRODUCTION: Significant ischemic cerebral lesions may result in cognitive disorders of varying degrees, with clinical repercussions that could be extremely severe for the affected patients. In order to evaluate the consequences of such lesions upon functional aspects, one of the components of event-related auditory evoked potentials, the Mismatch Negativity (MMN), may be used. AIM: to verify whether the MMN is able to identify electrophysiological changes in gerbils submitted to cerebral ischemia and hypothermia; to verify if auditory training may generate electrophysiological changes detectable by MMN, and to compare the potentials latencies with the surviving cells of the hippocampus of gerbils submitted to cerebral ischemia and hypothermia. METHODS: Study 1: 44 adult gerbils (Meriones Unguiculatus) were sedated with halothane and underwent cerebral ischemia through bilateral occlusion of the carotids for seven minutes, and the MMN was registered. Animals were divided in four groups, SHAM, HIPO, NORMO and HIPER, according to the temperature they were exposed. Study 2: 28 gerbils underwent a session of auditory training of 300 seconds in a passive shuttle box with an electroshock generator, and the MMN was registered. Study 3: the MMN of 27 gerbils were registered and after their scarifice, the amount of surviving cells in the CA1 region of the hippocampus was quantified through histological cuts. RESULTS: Study 1: the MMN was 100% present in the HIPO group, there was no significant statistical difference between groups SHAM and HIPO. Study 2: there was no significant statistical difference between the MMN latencies before and after the auditory training. Study 3: a greater number of surviving cells was observed in the hippocampus of animals from group HIPO, and a low correlation between the number of surviving cells and the MMN latency was detected. CONCLUSIONS: MMN detected electrophysiological changes generated by the neuroprotector effect of hypothermia, nevertheless the auditory training protocol used in this study did not generate neural changes in the animals that could be detected by MMN, and a low correlation between the MMN latency and the number of surviving cells in the CA1 region of the hippocampus of gerbils submitted to ischemia and hypothermia was observed.

ASSUNTO(S)

potencial evocado relacionado a eventos hypothermia ischemia event-related evoked potential plasticidade neuronal neuronal plasticity isquemia hipotermia

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