Neurophysiological changes associated with selective neuronal damage in hippocampus following transient forebrain ischemia.

Biological signals and receptors Pub Date : 1999-07-01 DOI:10.1159/000014600

Z C Xu, T M Gao, Y Ren

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引用次数: 33

Abstract

Neurophysiological changes of hippocampal neurons were compared before and after transient forebrain ischemia using intracellular recording and staining techniques in vivo. Ischemic depolarization (ID) was used as an indication of severe ischemia. Under halothane anesthesia, approximately 13 min of ID consistently produced severe neuronal damage in the CA1 region of rat hippocampus, while CA3 pyramidal neurons and dentate granule cells remained intact. After such severe ischemia, approximately 60% of the CA1 neurons exhibited a synaptic potentiation. The excitability of these neurons progressively decreased following reperfusion. Approximately 30% of the CA1 neurons showed a synaptic depression following ischemia. The excitability of these neurons transiently decreased following reperfusion. After ischemia of the same severity, both synaptic transmission and excitability of CA3 and granule cells transiently depressed. These data suggest that ischemia-induced synaptic potentiation may be associated with the pathogenesis of neuronal damage following ischemia, and that the synaptic depression may have protective effects on hippocampal neurons after ischemic insult.

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短暂性前脑缺血后海马选择性神经元损伤的神经生理变化。

采用细胞内记录和染色技术在体内比较短暂性前脑缺血前后海马神经元的神经生理变化。缺血去极化(ID)作为严重缺血的指示。在氟烷麻醉下，大约13分钟的ID持续对大鼠海马CA1区造成严重的神经元损伤，而CA3锥体神经元和齿状颗粒细胞保持完整。在如此严重的缺血后，大约60%的CA1神经元表现出突触增强。再灌注后，这些神经元的兴奋性逐渐降低。约30%的CA1神经元在缺血后出现突触抑制。再灌注后，这些神经元的兴奋性短暂性降低。相同程度的缺血后，CA3和颗粒细胞的突触传递和兴奋性均出现短暂性抑制。这些数据提示，缺血诱导的突触增强可能与缺血后神经元损伤的发病机制有关，突触抑制可能对缺血损伤后的海马神经元具有保护作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biological signals and receptors

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