Noise-induced precursors of state transitions in the stochastic Wilson-cowan model.

IF 2.3 4区 医学 Q1 Neuroscience Journal of Mathematical Neuroscience Pub Date : 2015-04-08 eCollection Date: 2015-01-01 DOI:10.1186/s13408-015-0021-x
Ehsan Negahbani, D Alistair Steyn-Ross, Moira L Steyn-Ross, Marcus T Wilson, Jamie W Sleigh
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引用次数: 3

Abstract

The Wilson-Cowan neural field equations describe the dynamical behavior of a 1-D continuum of excitatory and inhibitory cortical neural aggregates, using a pair of coupled integro-differential equations. Here we use bifurcation theory and small-noise linear stochastics to study the range of a phase transitions-sudden qualitative changes in the state of a dynamical system emerging from a bifurcation-accessible to the Wilson-Cowan network. Specifically, we examine saddle-node, Hopf, Turing, and Turing-Hopf instabilities. We introduce stochasticity by adding small-amplitude spatio-temporal white noise, and analyze the resulting subthreshold fluctuations using an Ornstein-Uhlenbeck linearization. This analysis predicts divergent changes in correlation and spectral characteristics of neural activity during close approach to bifurcation from below. We validate these theoretical predictions using numerical simulations. The results demonstrate the role of noise in the emergence of critically slowed precursors in both space and time, and suggest that these early-warning signals are a universal feature of a neural system close to bifurcation. In particular, these precursor signals are likely to have neurobiological significance as early warnings of impending state change in the cortex. We support this claim with an analysis of the in vitro local field potentials recorded from slices of mouse-brain tissue. We show that in the period leading up to emergence of spontaneous seizure-like events, the mouse field potentials show a characteristic spectral focusing toward lower frequencies concomitant with a growth in fluctuation variance, consistent with critical slowing near a bifurcation point. This observation of biological criticality has clear implications regarding the feasibility of seizure prediction.

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随机Wilson-cowan模型中状态转变的噪声诱导前体。
Wilson-Cowan神经场方程使用一对耦合的积分-微分方程描述了兴奋性和抑制性皮层神经聚集体的一维连续体的动力学行为。在这里,我们使用分岔理论和小噪声线性随机学来研究威尔逊-考恩网络可访问的分岔中出现的相变-动态系统状态的突然质变的范围。具体来说,我们研究了鞍节点、Hopf、图灵和图灵-Hopf不稳定性。我们通过添加小幅度时空白噪声来引入随机性,并使用Ornstein-Uhlenbeck线性化分析由此产生的亚阈值波动。这种分析预测了神经活动的相关性和光谱特征在接近从下面分叉时的不同变化。我们用数值模拟验证了这些理论预测。结果证明了噪声在空间和时间上严重减缓的前体出现中的作用,并表明这些预警信号是接近分叉的神经系统的普遍特征。特别是,这些前驱信号可能具有神经生物学意义,作为大脑皮层即将发生的状态变化的早期预警。我们通过对小鼠脑组织切片记录的体外局部场电位的分析来支持这一说法。我们发现,在导致自发性癫痫样事件出现之前的一段时间里,小鼠场电位表现出向低频聚焦的特征频谱,同时波动方差的增长,与分岔点附近的临界减速一致。这种生物临界性的观察对癫痫发作预测的可行性有明确的影响。
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Journal of Mathematical Neuroscience
Journal of Mathematical Neuroscience Neuroscience-Neuroscience (miscellaneous)
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审稿时长
13 weeks
期刊介绍: The Journal of Mathematical Neuroscience (JMN) publishes research articles on the mathematical modeling and analysis of all areas of neuroscience, i.e., the study of the nervous system and its dysfunctions. The focus is on using mathematics as the primary tool for elucidating the fundamental mechanisms responsible for experimentally observed behaviours in neuroscience at all relevant scales, from the molecular world to that of cognition. The aim is to publish work that uses advanced mathematical techniques to illuminate these questions. It publishes full length original papers, rapid communications and review articles. Papers that combine theoretical results supported by convincing numerical experiments are especially encouraged. Papers that introduce and help develop those new pieces of mathematical theory which are likely to be relevant to future studies of the nervous system in general and the human brain in particular are also welcome.
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