快速振荡大尺度网络中兴奋与抑制的动力平衡的生物物理模型。

A biophysical model of dynamic balancing of excitation and inhibition in fast oscillatory large-scale networks.

机构信息

Oxford Centre for Human Brain Activity, Wellcome Centre for Integrative Neuroimaging, Department of Psychiatry, University of Oxford, United Kingdom.

Oxford Centre for Functional Magnetic Resonance Imaging of the Brain, Wellcome Centre for Integrative Neuroimaging, University of Oxford, United Kingdom.

出版信息

PLoS Comput Biol. 2018 Feb 23;14(2):e1006007. doi: 10.1371/journal.pcbi.1006007. eCollection 2018 Feb.

DOI:10.1371/journal.pcbi.1006007

PMID:29474352

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5841816/

Abstract

Over long timescales, neuronal dynamics can be robust to quite large perturbations, such as changes in white matter connectivity and grey matter structure through processes including learning, aging, development and certain disease processes. One possible explanation is that robust dynamics are facilitated by homeostatic mechanisms that can dynamically rebalance brain networks. In this study, we simulate a cortical brain network using the Wilson-Cowan neural mass model with conduction delays and noise, and use inhibitory synaptic plasticity (ISP) to dynamically achieve a spatially local balance between excitation and inhibition. Using MEG data from 55 subjects we find that ISP enables us to simultaneously achieve high correlation with multiple measures of functional connectivity, including amplitude envelope correlation and phase locking. Further, we find that ISP successfully achieves local E/I balance, and can consistently predict the functional connectivity computed from real MEG data, for a much wider range of model parameters than is possible with a model without ISP.

摘要

从长远来看，神经元动力学对相当大的干扰具有鲁棒性，例如通过学习、衰老、发育和某些疾病过程导致的白质连接和灰质结构的变化。一种可能的解释是，稳健的动力学是由能够动态重新平衡大脑网络的平衡机制促进的。在这项研究中，我们使用具有传导延迟和噪声的 Wilson-Cowan 神经质量模型模拟皮质脑网络，并使用抑制性突触可塑性 (ISP) 来动态实现兴奋和抑制之间的空间局部平衡。使用来自 55 个受试者的 MEG 数据，我们发现 ISP 使我们能够同时与多种功能连接测量值（包括幅度包络相关和相位锁定）高度相关。此外，我们发现 ISP 成功地实现了局部 E/I 平衡，并且可以一致地预测从真实 MEG 数据计算出的功能连接，对于模型参数的范围比没有 ISP 的模型要宽得多。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/884e/5841816/5abb366316ff/pcbi.1006007.g001.jpg

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快速振荡大尺度网络中兴奋与抑制的动力平衡的生物物理模型。

A biophysical model of dynamic balancing of excitation and inhibition in fast oscillatory large-scale networks.

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