一个时间突触相互作用的模型

Proceedings of the 1991 IEEE Seventeenth Annual Northeast Bioengineering Conference Pub Date : 1991-04-04 DOI:10.1109/NEBC.1991.154608

N. Padmanaban, W. Ohley, G. Kass-simon, R. F. Constantino

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引用次数: 0

摘要

在甲壳类动物爪子肌肉纤维的突触输入之间的模式相互作用已被发现是重要的描绘爪子的行为。当美洲小龙虾切爪肌的兴奋性和抑制性神经元以不同频率放电时，观察到复杂的突触后电位(PSPs)模式。为了分析这些变化模式的本质，我们使用了一个具有两个突触(一个兴奋性突触和一个抑制性突触)的单个细胞的等效电路模型。该模型通过电路仿真程序实现。该模型生成的PSP模式与实验得到的模式具有较好的一致性。因此，该模型可以为这种模式的生成提供理论基础。

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A model of temporal synaptic interactions

The patterned interaction between synaptic inputs on the muscle fibers of crustacean claws has been found to be important in delineating claw behavior. When the excitatory and inhibitory neurons are fired at different frequencies in the opener muscle of the cutter claw of lobster Homarus Americanus, a complex pattern of postsynaptic potentials (PSPs) is observed. To analyze the nature of these varying patterns, an electrical equivalent circuit model of a single cell with two synapses, one excitatory and one inhibitory, is used. This model is implemented using a circuit simulation program. The PSP patterns generated by this model compare favorably with the patterns obtained from experiments. Thus the model can be used to formulate a theoretical basis for such pattern generation.<>

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Proceedings of the 1991 IEEE Seventeenth Annual Northeast Bioengineering Conference

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