Neuronal dynamics based on individual stochastic ion channels

Proceedings of the 9th International Conference on Neural Information Processing, 2002. ICONIP '02. Pub Date : 2002-11-18 DOI:10.1109/ICONIP.2002.1202890
G. Ashida, M. Kubo
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Abstract

A new neuronal model based on the stochastic activity of a single channel is proposed. The model connects the microscopic ionic kinetics to the macroscopic neuronal behavior and describes a neuron as a organized structure of individual subneuronal elements. This illustration has not been well achieved by the common models employed so far. Simulational results by using this novel model shows that spatially distributed ion channels can reproduce the neuronal dynamics - the existence of the stable state, initiation and propagation of the action potentials. The membrane potential measured at different points enables us to estimate the propagation speed of the action potentials.
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基于单个随机离子通道的神经元动力学
提出了一种基于单通道随机活动的神经元模型。该模型将微观离子动力学与宏观神经元行为联系起来,并将神经元描述为单个亚神经元元素的有组织结构。到目前为止,常用的模型还没有很好地实现这一说明。该模型的模拟结果表明,空间分布的离子通道能够再现神经元的动态过程——稳定状态的存在、动作电位的产生和传播。在不同点测得的膜电位使我们能够估计动作电位的传播速度。
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Proceedings of the 9th International Conference on Neural Information Processing, 2002. ICONIP '02.
Proceedings of the 9th International Conference on Neural Information Processing, 2002. ICONIP '02.
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