具有电生理细胞类型混合的分层模块化网络中自持振荡状态的机制

Mechanisms of Self-Sustained Oscillatory States in Hierarchical Modular Networks with Mixtures of Electrophysiological Cell Types.

作者信息

Tomov Petar, Pena Rodrigo F O, Roque Antonio C, Zaks Michael A

机构信息

Institute of Mathematics, Humboldt University of Berlin Berlin, Germany.

Laboratório de Sistemas Neurais, Department of Physics, School of Philosophy, Sciences and Letters of Ribeirão Preto, University of São PauloSão Paulo, Brazil; Institute of Physics, Humboldt University of BerlinBerlin, Germany.

出版信息

Front Comput Neurosci. 2016 Mar 23;10:23. doi: 10.3389/fncom.2016.00023. eCollection 2016.

DOI:10.3389/fncom.2016.00023

PMID:27047367

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4803744/

Abstract

In a network with a mixture of different electrophysiological types of neurons linked by excitatory and inhibitory connections, temporal evolution leads through repeated epochs of intensive global activity separated by intervals with low activity level. This behavior mimics "up" and "down" states, experimentally observed in cortical tissues in absence of external stimuli. We interpret global dynamical features in terms of individual dynamics of the neurons. In particular, we observe that the crucial role both in interruption and in resumption of global activity is played by distributions of the membrane recovery variable within the network. We also demonstrate that the behavior of neurons is more influenced by their presynaptic environment in the network than by their formal types, assigned in accordance with their response to constant current.

摘要

在一个由兴奋性和抑制性连接相连的、混合了不同电生理类型神经元的网络中，时间演化导致通过重复的密集全局活动时期，这些时期被低活动水平的间隔隔开。这种行为模仿了在没有外部刺激的情况下在皮质组织中实验观察到的“上”和“下”状态。我们根据神经元的个体动力学来解释全局动力学特征。特别是，我们观察到网络中膜恢复变量的分布在全局活动的中断和恢复中都起着关键作用。我们还证明，神经元的行为在网络中受其突触前环境的影响比受根据其对恒定电流的反应所分配的形式类型的影响更大。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/73e1/4803744/ba25c6446d14/fncom-10-00023-g0001.jpg

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The impact of cortical deafferentation on the neocortical slow oscillation.皮质去传入对新皮质慢波振荡的影响。

J Neurosci. 2014 Apr 16;34(16):5689-703. doi: 10.1523/JNEUROSCI.1156-13.2014.

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Cortical state and attention.皮质状态与注意力。

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Beyond the cortical column: abundance and physiology of horizontal connections imply a strong role for inputs from the surround.超越皮质柱：水平连接的丰富性和生理学特性表明周围输入起着重要作用。

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具有电生理细胞类型混合的分层模块化网络中自持振荡状态的机制

Mechanisms of Self-Sustained Oscillatory States in Hierarchical Modular Networks with Mixtures of Electrophysiological Cell Types.

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