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丘脑底核-苍白球外侧-脚桥核网络的振荡动力学分析 被引量:1

Analyses of Oscillation Dynamics in a Subthalamic Nucleus-External Globus Pallidus-Pedunculopontine Nucleus Network
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摘要 基底神经节(BG)是大脑深部一系列神经核团所构成的功能整体,参与精巧运动的形成.BG中丘脑底核(STN)和苍白球(GP)的异常同步振荡被认为与帕金森病(PD)有关.建立丘脑底核-苍白球外侧-脚桥核(STN-GPe-PPN)模型,基于稳定性理论给出了模型产生振荡的稳定性条件,探讨PPN和STN之间的耦合强度对STN-GPe振荡的影响,并分析GPe与STN之间的传输时滞对STN振荡的影响.数值模拟结果表明,丘脑底核受到脚桥核相互之间较强的促进作用和苍白球外侧较大的传输时滞时,丘脑底核会产生更高振幅的振荡. The basal ganglia(BG) is a functional whole composed of a series of nuclei in the deep part of the brain, which is involved in the formation of exquisite movements.The abnormal synchronous oscillation of subthalamic nucleus(STN) and globus pallidus(GP) in BG is considered to be related to Parkinson’s disease(PD).A subthalamic nucleus-external globus pallidus-pedunculopontine nucleus(STN-GPe-PPN) model was established.Based on the stability theory, the stability condition for the oscillation of the network was given.The effect of the coupling strength between PPN and STN on STN-GPe oscillations and the effect of the transmission time delay between GPe and STN on STN oscillations were investigated.The numerical simulation results showed that the STN generated higher amplitude oscillations when the subthalamic nucleus was subjected to stronger facilitation between the pedunculopontine nucleus and subthalamic nucleus.In addition, larger transmission time delay in the external globus pallidus, the higher amplitude oscillations of STN.
作者 陈国泰 郑艳红 CHEN Guotai;ZHENG Yanhong(School of Mathemalics and Statistics,Fujian Normal Universily,FJKLMAA and Center for Applied Mathematics of Fujian Province(FJNU),Fuzhou 350117,China)
机构地区 福建师范大学数学与统计学院
出处 《福建师范大学学报(自然科学版)》 CAS 2022年第3期11-16,共6页 Journal of Fujian Normal University:Natural Science Edition
基金 国家自然科学基金面上项目(11672074)。
关键词 帕金森病 神经元网络 脚桥核 稳定条件 振荡 Parkinson’s disease neuronal network Pedunculopontine Nucleus stability condition oscillation
分类号 O175 [理学—数学] O322 [理学—基础数学]
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福建师范大学学报(自然科学版)
2022年 第3期

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