期刊
JOURNAL OF COMPUTATIONAL NEUROSCIENCE
卷 16, 期 2, 页码 159-175出版社
SPRINGER
DOI: 10.1023/B:JCNS.0000014108.03012.81
关键词
cortical background activity; conductance-based synapses; integrate-and-fire neuron; analytical model
A model of in vivo-like neocortical activity is studied analytically in relation to experimental data and other models in order to understand the essential mechanisms underlying such activity. The model consists of a network of sparsely connected excitatory and inhibitory integrate-and-fire (IF) neurons with conductance-based synapses. It is shown that the model produces values for five quantities characterizing in vivo activity that are in agreement with both experimental ranges and a computer-simulated Hodgkin-Huxley model adapted from the literature (Destexhe et al. (2001) Neurosci. 107(1): 13-24). The analytical model builds on a study by Brunel (2000) (J. Comput. Neurosci. 8: 183-208), which used IF neurons with current-based synapses, and therefore does not account for the full range of experimental data. The present results suggest that the essential mechanism required to explain a range of data on in vivo neocortical activity is the conductance-based synapse and that the particular model of spike initiation used is not crucial. Thus the IF model with conductance-based synapses may provide a basis for the analytical study of the 'large, fluctuating synaptic conductance state' typical of neocortical neurons in vivo.
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