ISSN 0439-755X
CN 11-1911/B
主办:中国心理学会
   中国科学院心理研究所
出版:科学出版社

心理学报 ›› 1994, Vol. 26 ›› Issue (2): 190-194.

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颞叶梗塞致学习记忆障碍的机制研究──微透析分析与超微结构观察

向敬;匡培根;张凤英;蒲传强   

  1. 解放军总医院神经介质研究室
  • 发布日期:1994-06-25 出版日期:1994-06-25
  • 通讯作者: 向敬

INVESTIGATION INTO THE MECHANISM OF LEARNING AND MEMORY DISORDER INDUCED BY TEMPORAL INFARCT:MICRODIALYSIS AND ULTRASTRUCTURAL ANALYSIS

Xiang Jing;Kuang Peigen et al.(Neurotransmitter Research Laboratory,Chinese PLA General Hospital Postgraduate Military medical School,Beijing,100853)   

  • Online:1994-06-25 Published:1994-06-25

摘要: 应用光化学的方法建立了颞叶梗塞性学习记忆障碍动物模型。海马区神经介质类氨基酸的变化用微透析技术进行活体动态观测、超微结构改变用TEM电镜观察,并同时观察光镜下的神经细胞变化及鼠的学习记忆障碍。结果发现:(1)颞叶梗塞性痴呆鼠其海马区有大量兴奋性和抑制性氨基酸释放;(2)痴呆鼠海马区神经突触有大量囊泡聚集,晚期大小不均;(3)痴呆鼠脑新皮层及海马锥体细胞均有选择性坏死;(4)氨基酸的释放量与选择性神经细胞损伤及学习记忆障碍有关。

关键词: 学习记忆, 微透析, 超微结构

Abstract: Rats with selective temporal infarct induced Photochemically was used as an animal model of dementia. The changes of neuratransmitter amino acids in extracellullar fluid in the hippocampus were monitored with microdialysis technique in vivo, and the ultrastructures altered were observed using TEM electromicroscope, also the changes of neurons under the light microscope and the learning and memory ability were determined simultaneously.The results demonstrated that:(1)there were a large amount of releasing of excitatory and inhibitory neurotransmitter amino acids in the hippocampus during temporal ischemia;(2)there were many vesiculae accumulated at the presynapse membrane in the hippocampus at the early period of temporal infarct,then the number of vesiculae reduced and the size of vesicalea became uneven;(3)there was a selective neuron necrosis in hippocampus and neocortex in rats with temporal infarct;(4)there were significant correlations between the releasing of amino acids and selective neuron necrosis and learning and memory disorders. The findings showed that the temporal infarct could induce the selective neuron necrosis in the hippocampus via releasing of neurotransmitter amino acids especially the excitatory amino acids,and the temporal infarct and selective neurons necrosis could result in the learning and memory disorders. The authors believe that inhibiting the release of excitatory amino acids are useful for the treatment of vascular dementia in human beings.

Key words: learning and memory, microdialysis, ultrastracture