Novel Monolithic Silicon Probes with Flexible Parylene Cables for Neural Prostheses

C. Pang, S. Musallam, Y. Tai, J. Burdick, R. Andersen
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引用次数: 12

Abstract

This work presents the first parylene-insulated silicon probes, which are used for neural prostheses to record high-level cognitive neural signals. With parylene technology, our probes have several advantages compared with the current devices. First, instead of inorganic materials (e.g. SiO2 and Si3N4), the electrodes and conduction traces on the probes are insulated by parylene, an easily-deposited polymer with mechanical flexibility and biocompatibility. As a result, the probes exhibit better electrical and mechanical properties. Second, flexible parylene cables are monolithically integrated with the probes, which arm the probes with very high flexibility to be easily assembled to a high density 3-D array and at the same time provide an ideal method to transmit neural signals through skull during chronic recording. The all dry fabrication process and an 8times2 probe array (64 electrodes) were demonstrated. The probes were successfully tested electrically and mechanically in rat and monkey cortex. Neural signals were properly recorded
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神经假体用柔性聚对二甲苯电缆新型单片硅探针
这项工作提出了第一个聚苯乙烯绝缘硅探针,用于神经假体来记录高水平的认知神经信号。利用聚对二甲苯技术,我们的探针与现有的设备相比具有许多优点。首先,代替无机材料(如SiO2和Si3N4),电极和探针上的传导痕迹由聚对二甲苯绝缘,聚对二甲苯是一种易于沉积的聚合物,具有机械灵活性和生物相容性。因此,探针表现出更好的电气和机械性能。其次,柔性的聚对二甲苯电缆与探头集成在一起,这使得探头具有很高的灵活性,可以很容易地组装成高密度的3-D阵列,同时提供了一种在慢性记录过程中通过颅骨传输神经信号的理想方法。演示了全干制工艺和8times2探针阵列(64个电极)。这些探针在大鼠和猴子的皮层中成功地进行了电和机械测试。神经信号被正确记录
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