Surface multipoint microelectrode for direct recording of auditory evoked potentials on the auditory cortex of a rat

1st Annual International IEEE-EMBS Special Topic Conference on Microtechnologies in Medicine and Biology. Proceedings (Cat. No.00EX451) Pub Date : 2000-10-12 DOI:10.1109/MMB.2000.893837

H. Takahashi, T. Ejiri, M. Nakao, K. Matsumoto, F. Mase, Y. Hatamura, T. Hervé, N. Nakamura, K. Kaga

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引用次数: 7

Abstract

Stimulation of the cochlear nucleus has been used for rehabilitation of deafened patients with bilateral acoustic neuromas, but current prosthetic devices bring few benefits. The goals of the authors' study are to develop such a system that could provide neuronal data with a high spatiotemporal resolution, reveal auditory pathway functions, and develop efficient guidelines for designing prostheses. Here, the authors propose and fabricate the surface microelectrode for direct cortical recordings, which is flexible enough to stick onto the cortex and consists of 32 recording sites on 2-mm square area. In addition, the spike microelectrode array, in which four microelectrodes are aligned at even intervals of 400 /spl mu/m, was developed, and used for micro-stimulation of the cochlear nucleus. The system using these electrodes was developed and its feasibility was shown on rats' animal experiments. In the experiments, the authors show that the surface electrode can provide high-resolution data of cortical activities elicited by both acoustic and electrical stimulation and can demonstrate the functional stimulation of the spike microelectrode array.

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用于直接记录大鼠听觉皮层听觉诱发电位的表面多点微电极

刺激耳蜗核已被用于双侧听神经瘤耳聋患者的康复，但目前的假肢装置收效甚微。作者的研究目标是开发这样一个系统，可以提供具有高时空分辨率的神经元数据，揭示听觉通路功能，并为设计假肢制定有效的指导方针。在这里，作者提出并制造了用于直接皮层记录的表面微电极，它具有足够的灵活性，可以粘附在皮层上，由32个记录点组成，面积为2毫米的正方形。此外，开发了4个微电极以400 /spl mu/m的均匀间隔排列的尖峰微电极阵列，并用于耳蜗核的微刺激。研制了该系统，并在大鼠动物实验中验证了其可行性。在实验中，作者证明了表面电极可以提供声和电刺激引起的皮层活动的高分辨率数据，并可以证明尖峰微电极阵列的功能刺激。

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1st Annual International IEEE-EMBS Special Topic Conference on Microtechnologies in Medicine and Biology. Proceedings (Cat. No.00EX451)

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