一种用于识别电极对皮肤中电流分布影响的有限元模型。

A finite element model to identify electrode influence on current distribution in the skin.

作者信息

Sha Ning, Kenney Laurence P J, Heller Ben W, Barker Anthony T, Howard David, Moatamedi Moji

机构信息

Centre for Rehabilitation and Human Performance Research, University of Salford, Salford, UK.

出版信息

Artif Organs. 2008 Aug;32(8):639-43. doi: 10.1111/j.1525-1594.2008.00615.x.

DOI:10.1111/j.1525-1594.2008.00615.x

PMID:18782136

Abstract

Discomfort experienced during surface functional electrical stimulation (FES) is thought to be partly a result of localized high current density in the skin underneath the stimulating electrode. This article describes a finite element (FE) model to predict skin current density distribution in the region of the electrode during stimulation and its application to the identification of electrode properties that may act to reduce sensation. The FE model results show that the peak current density was located in an area immediately under the stratum corneum, adjacent to a sweat duct. A simulation of surface FES via a high-resistivity electrode showed a reduction in this peak current density, when compared to that with a low-resistivity electrode.

摘要

人们认为，表面功能性电刺激（FES）过程中所经历的不适，部分是由于刺激电极下方皮肤中局部高电流密度所致。本文描述了一种有限元（FE）模型，用于预测刺激过程中电极区域的皮肤电流密度分布，及其在识别可能有助于减轻感觉的电极特性方面的应用。有限元模型结果表明，峰值电流密度位于紧邻汗腺导管的角质层正下方区域。与低电阻率电极相比，通过高电阻率电极进行表面FES模拟显示该峰值电流密度有所降低。

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一种用于识别电极对皮肤中电流分布影响的有限元模型。

A finite element model to identify electrode influence on current distribution in the skin.

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