三维神经记录阵列

TRANSDUCERS '91: 1991 International Conference on Solid-State Sensors and Actuators. Digest of Technical Papers Pub Date : 1991-06-24 DOI:10.1109/SENSOR.1991.148816

A. Hoogerwerf, K. Wise

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引用次数: 23

摘要

作者描述了一种三维记录阵列，用于高密度监测整个皮质组织的神经活动。所使用的微组装技术允许多个多柄平面探针精确配置，形成探针间距为100 μ m或更小的3D微结构。探头通过一个正交平台对齐，也是由硅微加工形成的。探头和平台之间的高密度引线传输是通过选择性电镀形成的，并提供非常低的串联电阻和并联电容值，中心到中心的引线间距为100 μ m或更小。一种4*4柄无源探针阵列可以很容易地穿透蛛网膜，并且被神经组织所接受。这些装配技术似乎也与需要3D结构的各种其他微机电系统兼容。

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A three-dimensional neural recording array

The authors describe a three-dimensional recording array for the high-density monitoring of neural activity throughout a volume of cortical tissue. The microassembly techniques used permit multiple multishank planar probes to be precisely configured to form 3D microstructures with probe spacings of 100 mu m or less. The probes are aligned through an orthogonal platform, also formed by silicon micromachining. High-density lead transfers between the probes and the platform are formed by selective electroplating and offer very low values of series resistance and shunt capacitance, with center-to-center lead spacings of 100 mu m or less. A 4*4 shank passive probe array has been found to penetrate pia arachnoid easily and is well accepted by the neural tissue. These assembly techniques also appear to be compatible with a variety of other microelectromechanical systems where 3D structures are required.<>

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TRANSDUCERS '91: 1991 International Conference on Solid-State Sensors and Actuators. Digest of Technical Papers

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