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通过应用于内侧苍白球的三相延迟刺激来调节失神发作。

Regulating absence seizures by tri-phase delay stimulation applied to globus pallidus internal.

作者信息

Hou Songan, Fan Denggui, Wang Qingyun

机构信息

Department of Dynamics and Control, Beihang University, Beijing, 100191 China.

School of Mathematics and Physics, University of Science and Technology Beijing, Beijing, 100083 China.

出版信息

Appl Math Mech. 2022;43(9):1399-1414. doi: 10.1007/s10483-022-2896-7. Epub 2022 Sep 2.

DOI:10.1007/s10483-022-2896-7
PMID:36092985
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9438882/
Abstract

In this paper, a reduced globus pallidus internal (GPI)-corticothalamic (GCT) model is developed, and a tri-phase delay stimulation (TPDS) with sequentially applying three pulses on the GPI representing the inputs from the striatal neurons, subthalamic nucleus (STN), and globus pallidus external (GPE), respectively, is proposed. The GPI is evidenced to control absence seizures characterized by 2 Hz-4 Hz spike and wave discharge (SWD). Hence, based on the basal ganglia-thalamocortical (BGCT) model, we firstly explore the triple effects of -GPI, GPE-GPI, and STN-GPI pathways on seizure patterns. Then, using the GCT model, we apply the TPDS on the GPI to potentially investigate the alternative and improved approach if these pathways to the GPI are blocked. The results show that the striatum , GPE, and STN can indeed jointly and significantly affect seizure patterns. In particular, the TPDS can effectively reproduce the seizure pattern if the -GPI, GPE-GPI, and STN-GPI pathways are cut off. In addition, the seizure abatement can be obtained by well tuning the TPDS stimulation parameters. This implies that the TPDS can play the surrogate role similar to the modulation of basal ganglia, which hopefully can be helpful for the development of the brain-computer interface in the clinical application of epilepsy.

摘要

本文构建了一个简化的苍白球内侧部(GPI)-皮质丘脑(GCT)模型,并提出了一种三相延迟刺激(TPDS)方法,该方法依次在GPI上施加三个脉冲,分别代表来自纹状体神经元、丘脑底核(STN)和苍白球外侧部(GPE)的输入。有证据表明GPI可控制以2 Hz - 4 Hz棘波和慢波放电(SWD)为特征的失神发作。因此,基于基底神经节-丘脑皮质(BGCT)模型,我们首先探究了纹状体-GPI、GPE - GPI和STN - GPI通路对癫痫发作模式的三重影响。然后,利用GCT模型,我们在GPI上应用TPDS,以潜在地研究如果这些通向GPI的通路被阻断时的替代和改进方法。结果表明,纹状体、GPE和STN确实能共同且显著地影响癫痫发作模式。特别是,如果纹状体-GPI、GPE - GPI和STN - GPI通路被切断,TPDS能够有效地重现癫痫发作模式。此外,通过合理调整TPDS刺激参数可以实现癫痫发作的减轻。这意味着TPDS可以起到类似于基底神经节调制的替代作用,有望在癫痫临床应用中对脑机接口的发展有所帮助。

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