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经颅磁刺激的多尺度建模仿真研究()

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《中国医学物理学杂志》[ISSN:1005-202X/CN:44-1351/R]

卷:: 39卷
期数:: 2022年第10期

页码:: 1293-1297

栏目:: 医学生物物理

出版日期:: 2022-11-02

文章信息/Info

Title:: Review of multi-scale modeling and simulation of transcranial magnetic stimulation

文章编号:: 1005-202X（2022）10-1293-05

作者:: 杨惠兰1; 2; 徐桂芝1; 2; 王宏斌1; 2; 1.省部共建电工装备可靠性与智能化国家重点实验室，天津 300130； 2.河北省生物电磁与神经工程重点实验室/河北工业大学电气工程学院，天津 300130

Author(s):: Review of multi-scale modeling and simulation of transcranial magnetic stimulation; 1. State Key Laboratory of Reliability and Intelligence of Electrical Equipment, Tianjin 300130, China 2. Hebei Key Laboratory of Bioelectromagnetic and Neural Engineering/School of Electrical Engineering, Hebei University of Technology, Tianjin 300130, China

关键词:: 经颅磁刺激; 电磁场建模仿真; 细胞跨膜电位建模仿真; 神经元响应建模仿真; 综述

Keywords:: Keywords: transcranial magnetic stimulation electromagnetic field modeling and simulation cell transmembrane potential modeling and simulation neuron response modeling and simulation review

分类号:: R318

DOI:: DOI:10.3969/j.issn.1005-202X.2022.10.019

文献标志码:: A

摘要:: 经颅磁刺激是一种无创无痛的电磁刺激手段，被广泛应用于神经调控，在临床上对多种精神疾病和神经类疾病有明显的治疗效果。本文从电磁场建模仿真，细胞跨膜电位建模仿真，以及神经元响应建模仿真3个方面对经颅磁刺激多尺度建模仿真研究进行了详细的综述，并提出现阶段存在的问题以及对未来的展望。经颅磁刺激的多尺度建模仿真对磁刺激仪的设计开发具有指导意义，对磁刺激的导航系统提供重要的理论基础，有助于我们更好的理解电磁刺激的神经调控机制。

Abstract:: Abstract: Transcranial magnetic stimulation which is a non-invasive and painless electromagnetic stimulation method is widely used in nerve regulation and has obvious therapeutic effect on a variety of mental diseases and neurological diseases. Herein the researches on electromagnetic field modeling and simulation, cell transmembrane potential modeling and simulation, and neuron response modeling and simulation are reviewed, and the existing problems and future prospects are put forward. The multi-scale modeling and simulation of transcranial magnetic stimulation has guiding significance for the design and update of magnetic stimulator, provides an important theoretical basis for the navigation system of magnetic stimulation, and is helpful to better understand the neural regulation mechanism of electromagnetic stimulation.

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备注/Memo

备注/Memo:: 【收稿日期】2022-05-26 【基金项目】国家自然科学基金（51737003, 51977060, 51607056）；河北省高等学校自然科学青年拔尖人才项目（BJ2016013）【作者简介】杨惠兰，博士研究生，研究方向：生物电磁与神经工程，E-mail: huilanyang2021@163.com 【通信作者】徐桂芝，教授，研究方向：生物电磁，E-mail: gzxu@hebut.edu.cn

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更新日期/Last Update: 2022-10-27