A COMPUTER-BASED MODEL FOR REALISTIC SIMULATIONS OF NEURAL NETWORKS .1. THE SINGLE NEURON AND SYNAPTIC INTERACTION

被引:135
作者
EKEBERG, O [1 ]
WALLEN, P [1 ]
LANSNER, A [1 ]
TRAVEN, H [1 ]
BRODIN, L [1 ]
GRILLNER, S [1 ]
机构
[1] KAROLINSKA INST, NOBEL INST NEUROPHYSIOL, S-10401 STOCKHOLM 60, SWEDEN
关键词
D O I
10.1007/BF00202382
中图分类号
TP3 [计算技术、计算机技术];
学科分类号
0812 ;
摘要
The use of computer simulations as a neurophysiological tool creates new possibilities to understand complex systems and to test whether a given model can explain experimental findings. Simulations, however, require a detailed specification of the model, including the nerve cell action potential and synaptic transmission. We describe a neuron model of intermediate complexity, with a small number of compartments representing the soma and the dendritic tree, and equipped with Na+, K+, Ca2+, and Ca2+ dependent K+ channels. Conductance changes in the different compartments are used to model conventional excitatory and inhibitory synaptic interactions. Voltage dependent NMDA-receptor channels are also included, and influence both the electrical conductance and the inflow of Ca2+ ions. This neuron model has been designed for the analysis of neural networks and specifically for the simulation of the network generating locomotion in a simple vertebrate, the lamprey. By assigning experimentally established properties to the simulated cells and their synapses, it has been possible to verify the sufficiency of these properties to account for a number of experimental findings of the network in operation. The model is, however, sufficiently general to be useful for realistic simulation also of other neural systems.
引用
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页码:81 / 90
页数:10
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