分岔理论解释了一种先天性眼球运动障碍中的波形变异性。

Bifurcation theory explains waveform variability in a congenital eye movement disorder.

作者信息

Barreiro Andrea K, Bronski Jared C, Anastasio Thomas J

机构信息

Department of Mathematics, University of Illinois at Urbana-Champaign, 273 Altgeld Hall, 1409 Green Street, Urbana, IL 61801, USA.

出版信息

J Comput Neurosci. 2009 Apr;26(2):321-9. doi: 10.1007/s10827-008-0113-7. Epub 2008 Aug 30.

DOI:10.1007/s10827-008-0113-7

PMID:18758933

Abstract

In dynamical systems, configurations that permit flexible control are also prone to undesirable behavior. We study a bilateral model of the oculomotor pre-motor network that conforms with the neuroanatomical constraint that brainstem neurons project to cerebellar Purkinje cells on both sides, but Purkinje cells project back to brainstem neurons on the same side only. Bifurcation analysis reveals that this network asymmetry enables flexible control by the cerebellum of brainstem network dynamics, but small changes in connection pattern or strength lead to behavior that is unstable, oscillatory, or both. The model produces the full range of waveform types associated with the hereditary eye movement disorder know as congenital nystagmus, and is consistent with findings linking the disorder with abnormal connectivity or limited plasticity in the cerebellum.

摘要

在动力系统中，允许灵活控制的配置也容易出现不良行为。我们研究了动眼神经运动前网络的双侧模型，该模型符合神经解剖学约束，即脑干神经元投射到两侧的小脑浦肯野细胞，但浦肯野细胞仅投射回同侧的脑干神经元。分岔分析表明，这种网络不对称性使小脑能够灵活控制脑干网络动力学，但连接模式或强度的微小变化会导致不稳定、振荡或兼具两者的行为。该模型产生了与遗传性眼球运动障碍（即先天性眼球震颤）相关的全范围波形类型，并且与将该疾病与小脑异常连接或有限可塑性联系起来的研究结果一致。

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分岔理论解释了一种先天性眼球运动障碍中的波形变异性。

Bifurcation theory explains waveform variability in a congenital eye movement disorder.

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