模拟三种眼动障碍:周期性交替、凝视诱发和反弹性眼球震颤的相互作用。

IF 1.5 4区 医学 Q3 MATHEMATICAL & COMPUTATIONAL BIOLOGY Journal of Computational Neuroscience Pub Date : 2021-08-01 DOI:10.1007/s10827-021-00790-9
Ari A Shemesh, Koray Kocoglu, Gülden Akdal, Rahmi Tümay Ala, G Michael Halmagyi, David S Zee, Jorge Otero-Millan
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引用次数: 3

摘要

女性,44岁,抗yo副肿瘤小脑综合征阳性,影像学正常,出现周期性交替性眼震(PAN)、凝视诱发性眼震(GEN)和反跳性眼震(RN)等眼运动障碍。注视时,有典型的PAN,但凝视位置的变化引起了复杂的、时变的GEN和RN振荡。为了揭示这种不寻常的眼球震颤模式的病理生理学,我们建立了一个前庭-眼反射和凝视控制回路正常功能的数学模型,包括它们的适应机制。模拟结果表明,我们患者的所有发现都可以用小脑回路的两个小的、孤立的变化来解释:减少注视积分器的时间常数,产生GEN和RN,增加前庭速度存储正反馈回路的增益,产生PAN。我们的结论是,我们患者眼球震颤的凝视和时间变化模式可以通过一个产生典型PAN的模型和另一个产生典型GEN和RN的模型的叠加来解释,而不需要在凝视系统中添加新的振荡器,也不需要两个模型之间更复杂的非线性相互作用。这一分析提出了一种在时变眼震如PAN的情况下发现凝视诱发性眼震和反弹性眼震的策略。我们的结果也与小脑功能区隔化控制前庭速度储存机制(小叶和小舌腹侧)和保持水平凝视稳定(小叶和扁桃体)的观点一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Modeling the interaction among three cerebellar disorders of eye movements: periodic alternating, gaze-evoked and rebound nystagmus.

A woman, age 44, with a positive anti-YO paraneoplastic cerebellar syndrome and normal imaging developed an ocular motor disorder including periodic alternating nystagmus (PAN), gaze-evoked nystagmus (GEN) and rebound nystagmus (RN). During fixation there was typical PAN but changes in gaze position evoked complex, time-varying oscillations of GEN and RN. To unravel the pathophysiology of this unusual pattern of nystagmus, we developed a mathematical model of normal function of the circuits mediating the vestibular-ocular reflex and gaze-holding including their adaptive mechanisms. Simulations showed that all the findings of our patient could be explained by two, small, isolated changes in cerebellar circuits: reducing the time constant of the gaze-holding integrator, producing GEN and RN, and increasing the gain of the vestibular velocity-storage positive feedback loop, producing PAN. We conclude that the gaze- and time-varying pattern of nystagmus in our patient can be accounted for by superposition of one model that produces typical PAN and another model that produces typical GEN and RN, without requiring a new oscillator in the gaze-holding system or a more complex, nonlinear interaction between the two models. This analysis suggest a strategy for uncovering gaze-evoked and rebound nystagmus in the setting of a time-varying nystagmus such as PAN. Our results are also consistent with current ideas of compartmentalization of cerebellar functions for the control of the vestibular velocity-storage mechanism (nodulus and ventral uvula) and for holding horizontal gaze steady (the flocculus and tonsil).

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来源期刊
CiteScore
2.00
自引率
8.30%
发文量
32
审稿时长
3 months
期刊介绍: The Journal of Computational Neuroscience provides a forum for papers that fit the interface between computational and experimental work in the neurosciences. The Journal of Computational Neuroscience publishes full length original papers, rapid communications and review articles describing theoretical and experimental work relevant to computations in the brain and nervous system. Papers that combine theoretical and experimental work are especially encouraged. Primarily theoretical papers should deal with issues of obvious relevance to biological nervous systems. Experimental papers should have implications for the computational function of the nervous system, and may report results using any of a variety of approaches including anatomy, electrophysiology, biophysics, imaging, and molecular biology. Papers investigating the physiological mechanisms underlying pathologies of the nervous system, or papers that report novel technologies of interest to researchers in computational neuroscience, including advances in neural data analysis methods yielding insights into the function of the nervous system, are also welcomed (in this case, methodological papers should include an application of the new method, exemplifying the insights that it yields).It is anticipated that all levels of analysis from cognitive to cellular will be represented in the Journal of Computational Neuroscience.
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