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通过对丘脑中继细胞进行深部脑刺激来控制阿尔茨海默病

Controlling Alzheimer's Disease Through the Deep Brain Stimulation to Thalamic Relay Cells.

作者信息

Yang XiaoLi, Zhang RuiXi, Sun ZhongKui, Kurths Jürgen

机构信息

School of Mathematics and Statistics, Shaanxi Normal University, Xi'an, China.

Department of Applied Mathematics, Northwestern Polytechnical University, Xi'an, China.

出版信息

Front Comput Neurosci. 2021 Nov 8;15:636770. doi: 10.3389/fncom.2021.636770. eCollection 2021.

DOI:10.3389/fncom.2021.636770
PMID:34819845
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8606419/
Abstract

Experimental and clinical studies have shown that the technique of deep brain stimulation (DBS) plays a potential role in the regulation of Alzheimer's disease (AD), yet it still desires for ongoing studies including clinical trials, theoretical approach and action mechanism. In this work, we develop a modified thalamo-cortico-thalamic (TCT) model associated with AD to explore the therapeutic effects of DBS on AD from the perspective of neurocomputation. First, the neuropathological state of AD resulting from synapse loss is mimicked by decreasing the synaptic connectivity strength from the Inter-Neurons (IN) neuron population to the Thalamic Relay Cells (TRC) neuron population. Under such AD condition, a specific deep brain stimulation voltage is then implanted into the neural nucleus of TRC in this TCT model. The symptom of AD is found significantly relieved by means of power spectrum analysis and nonlinear dynamical analysis. Furthermore, the therapeutic effects of DBS on AD are systematically examined in different parameter space of DBS. The results demonstrate that the controlling effect of DBS on AD can be efficient by appropriately tuning the key parameters of DBS including amplitude A, period P and duration D. This work highlights the critical role of thalamus stimulation for brain disease, and provides a theoretical basis for future experimental and clinical studies in treating AD.

摘要

实验和临床研究表明,深部脑刺激(DBS)技术在阿尔茨海默病(AD)的调控中发挥着潜在作用,但仍需要包括临床试验、理论方法和作用机制等方面的持续研究。在这项工作中,我们开发了一种与AD相关的改良丘脑 - 皮质 - 丘脑(TCT)模型,从神经计算的角度探讨DBS对AD的治疗效果。首先,通过降低中间神经元(IN)神经元群体到丘脑中继细胞(TRC)神经元群体的突触连接强度,模拟由突触丧失导致的AD神经病理状态。在这种AD条件下,然后将特定的深部脑刺激电压植入该TCT模型中TRC的神经核。通过功率谱分析和非线性动力学分析发现AD症状得到显著缓解。此外,在DBS的不同参数空间中系统地研究了DBS对AD的治疗效果。结果表明,通过适当调整DBS的关键参数,包括幅度A、周期P和持续时间D,DBS对AD的控制作用可以是有效的。这项工作突出了丘脑刺激对脑部疾病的关键作用,并为未来治疗AD的实验和临床研究提供了理论基础。

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