Novel intracochlear electrode positioner: effects on electrode position.

The Annals of otology, rhinology & laryngology. Supplement Pub Date : 2000-12-01 DOI:10.1177/0003489400109s1207

N W Yang, A V Hodges, T J Balkany

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引用次数: 16

Abstract

Spiral ganglion cells, located in the cochlear modiolus, are widely thought to be the neural elements stimulated by cochlear implants (CIs). Positioning CI electrodes adjacent to the modiolus may allow delivery of more focused, discrete fields of electrical stimulation, reducing both current requirements and the channel interaction associated with simultaneous stimulation. In order to provide greater consistency in positioning CI electrodes against the modiolus, Advanced Bionics Corporation has designed a silicone intracochlear positioner that is inserted alongside the electrode. Placed against the outer wall of the scala tympani, it directs the electrode array toward the modiolus. Five fresh-frozen temporal bones were studied to validate enhanced electrode placement. Electrode position was documented with image-enhanced digital fluoroscopy, and the distance to the modiolus was measured with computer-assisted morphometrics. The electrode positioner was highly effective in positioning the electrodes closer to the modiolus (p < .001).

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新型耳蜗内电极定位器:对电极位置的影响。

螺旋神经节细胞被广泛认为是人工耳蜗(CIs)刺激的神经元件。将CI电极放置在模动肌附近，可以提供更集中、更离散的电刺激场，减少电流需求和同时刺激相关的通道相互作用。为了提供更大的一致性定位CI电极对modiolus，先进仿生学公司设计了一个硅胶耳蜗内定位器，插入电极旁边。它靠在鼓室的外壁上，将电极阵列指向鼻窦。研究了5块新鲜冷冻的颞骨，以验证增强电极的放置。用图像增强数字透视法记录电极位置，用计算机辅助形态测量法测量到痣的距离。电极定位器在将电极定位到离鼻窦更近的位置上非常有效(p < 0.001)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Annals of otology, rhinology & laryngology. Supplement

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