A Transparent Penetrating Microelectrode Array for in-vitro Hippocampus Recording

2007 3rd International IEEE/EMBS Conference on Neural Engineering Pub Date : 2007-05-02 DOI:10.1109/CNE.2007.369664

A. Kibler, B. Jamieson, D. Durand

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Abstract

A novel penetrating microelectrode array was designed and fabricated for the purpose of recording activity in the hippocampus of mice. The array allows two dimensional recording of 64 simultaneous sites of the hippocampus, in vitro. Traditional surface electrode arrays, although easy to fabricate, do not penetrate to the active tissue of hippocampus slices and thus theoretically have a lower signal/noise ratio and lower selectivity than a penetrating array. Furthermore, the structure of the hippocampus slice preparation results in dead tissue in closest proximity to these traditional electrodes and the cell bodies of the CA1 region are obscured by them, degrading activity-based optical imaging techniques as well. An array of 64 electrode posts was fabricated in silicon and bonded to a clear glass substrate. The impedance of the electrodes was measured to be approximately 1.5M Ohms + -500Ohms. The signal to noise ratio was measured and found to be 19.4 +/-3 dB compared to 3.9 +/-0.8 dB S/N for signals obtained with voltage sensitive dye RH414. These data suggest that the penetrating electrode array is superior to that of the voltage sensitive dye technique for two-dimensional recording.

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透明穿透微电极阵列用于体外海马记录

设计并制作了一种新型的穿透微电极阵列，用于记录小鼠海马的活动。该阵列允许在体外同时记录64个海马体部位的二维记录。传统的表面电极阵列虽然易于制造，但不能穿透海马切片的活性组织，因此理论上比穿透阵列具有更低的信噪比和更低的选择性。此外，海马切片制备的结构导致死组织最接近这些传统电极，CA1区域的细胞体被它们掩盖，也降低了基于活性的光学成像技术。由64根电极柱组成的阵列用硅制成，并连接到透明的玻璃基板上。测得电极阻抗约为1.5M欧姆+ -500欧姆。测量了信噪比，发现用电压敏感染料RH414获得的信号的信噪比为19.4 +/-3 dB，而信号的信噪比为3.9 +/-0.8 dB。这些数据表明，穿透电极阵列在二维记录方面优于电压敏感染料技术。

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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2007 3rd International IEEE/EMBS Conference on Neural Engineering

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