A complete model for the evaluation of the magnetic stimulation of peripheral nerves.

Q3 Medicine Open Biomedical Engineering Journal Pub Date : 2014-01-10 eCollection Date: 2014-01-01 DOI:10.2174/1874120701408010001
Stefano Pisa, Francesca Apollonio, Guglielmo d'Inzeo
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Abstract

In this paper, a numerical procedure for the analysis of peripheral nerve excitation through magnetic stimulation is presented and used to investigate the physical parameters influencing stimulation. The finite difference technique is used to evaluate the electric field distribution induced inside an arm by the current flowing through a coil, and a nonlinear cable model is used to describe the response of the nerve fiber to the induced electric field. The comparison among several forearm structures has evidenced that the heterogeneous non dispersive forearm model is a good reference condition. With this model, the lowest charging voltage on the stimulator capacitance, able to produce the nerve stimulation, is achieved when the coil is shifted, with respect to the nerve, of a quantity slightly lower than the coil radius but it is also possible to excite the nerve fiber by applying a shift equal to zero. The charging voltage increases when the coil radius is increased and when a three-dimensional coil geometry is considered. Moreover, this voltage is strongly dependent on the nerve position inside the forearm and on the kind of tissue surrounding the nerve.

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用于评估外周神经磁刺激的完整模型。
本文介绍了通过磁刺激进行周围神经兴奋分析的数值程序,并用于研究影响刺激的物理参数。有限差分技术用于评估电流流经线圈时在手臂内部诱发的电场分布,非线性电缆模型用于描述神经纤维对诱发电场的响应。对几种前臂结构的比较证明,异质非色散前臂模型是一个很好的参考条件。在该模型中,当线圈相对于神经的偏移量略低于线圈半径时,刺激器电容上能产生神经刺激的最低充电电压就会达到。当线圈半径增大和考虑三维线圈几何形状时,充电电压会增加。此外,该电压还与神经在前臂内的位置以及神经周围组织的种类密切相关。
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来源期刊
Open Biomedical Engineering Journal
Open Biomedical Engineering Journal Medicine-Medicine (miscellaneous)
CiteScore
1.60
自引率
0.00%
发文量
4
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