三维网格生成,解决植入内耳的电体积传导问题

Jeroen J. Briaire, Johan H.M. Frijns
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引用次数: 30

摘要

人工耳蜗被用来恢复深度失聪患者的听力。巴尔,Otolaryngol。中国。北方。Am. 19(2)(1986) 215-449]通过直接电刺激听神经。为了研究人工耳蜗的工作机制,并为开发更好的人工耳蜗提供工具,建立了耳蜗(内耳听觉部分)的边界元电体积传导模型。本文首先对现有的数值方法进行了简要的比较,然后提出了一种算法,该算法可以构造不同的耳蜗几何形状并与不同类型的耳蜗植入物相匹配。利用所建立的模型可以计算出种植体诱导的电位分布,并对种植体的效果进行预测。网格划分算法的应用不仅局限于人工耳蜗,也适用于其他领域。
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3D mesh generation to solve the electrical volume conduction problem in the implanted inner ear

Cochlear implants are used to restore hearing in the profoundly deaf [Th.J. Balkany, Otolaryngol. Clin. North. Am. 19 (2) (1986) 215–449] by direct electrical stimulation of the auditory nerve. To study the working mechanism of cochlear implants and to provide a tool to develop better ones, a Boundary Element electrical volume conduction model of the cochlea (the auditory part of the inner ear) has been constructed. In this paper first a short comparison of the available numerical methods is given, then an algorithm is presented with which different cochlear geometries can be constructed and fitted with different types of cochlear implants. With the resulting model the potential distributions induced by the implant can be calculated, and a prediction of the effect of the implant can be made. The use of the meshing algorithm is not restricted to cochlear implants, but is also applicable in other fields.

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