记忆功能障碍小鼠海马CA1神经元放电的熵编码

Xiaoping Zheng, Xian Tian, Tiaotiao Liu, H. Tao
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引用次数: 1

摘要

本研究的目的是通过熵编码研究功能障碍小鼠CA1神经元放电模式的特征。在衰老加速倾向(SAM) -P/8型(SAM-P/8)小鼠组和正常对照小鼠两组海马CA1区记录峰列。采用基于峰间间隔(ISIs)直方图的Shannon熵测量两组(每组10个样本)海马切片CA1神经元活动编码。用t检验检验两组间熵码的差异。结果表明,sam - p /8小鼠组的Shannon熵为9.30plusmn0.44 bit,明显大于正常小鼠组的7.26plusmn0.33 bit。综上所述,SAM-P/8小鼠高熵值组的信息水平低于正常组,提示衰老加速小鼠突触可塑性功能障碍。这一结果可能从神经编码模式的角度支持记忆功能障碍的研究。
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Entropy Coding of Neuron Firings at Hippocampus CA1 for Memory Dysfunctional Mice
The aim of this research is to investigate the characterization of firing pattern of neuron at CA1 for dysfunctional memory mice via entropy coding. The spike trains were recorded at CA1 of hippocampus slice for two groups: senescence-accelerated-prone (SAM) -P/8 type (SAM-P/8) mice group and normal control mice group. Shannon entropy based on inter spike intervals (ISIs) histogram was used to measure the code of neuron activity at CA1 of hippocampus slice for two groups (10 samples for each group). The different of the entropy codes for two groups was tested by t-test. The results show that Shannon entropy forSAM-P/8 mice group was 9.30plusmn0.44 bit, which is apparently greater than that for normal mice group, which was 7.26plusmn0.33 bit.The conclusion is that the higher entropy value for SAM-P/8 mice group is revealed lower information level than the normal group, which suggests the dysfunction of synaptic plasticity for senescence-accelerated-prone mice. The results might support the research of memory dysfunction from the view of neural coding pattern.
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