Ultra-compliant peripheral nerve cuff electrode with hydrogel adhesion

2018 IEEE Micro Electro Mechanical Systems (MEMS) Pub Date : 2018-04-24 DOI:10.1109/MEMSYS.2018.8346566

Xiao Chuan Ong, Wei-Chen Huang, Ik Soo Kwon, C. Gopinath, Haosheng Wu, L. Fisher, R. Gaunt, C. Bettinger, G. Fedder

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引用次数: 3

Abstract

This paper reports a method of fabricating peripheral nerve cuff electrodes attached to a sticky hydrogel. The nerve cuff electrode is much more compliant compared to typical cuff electrodes made of polyimide or PDMS and contains adhesion-promoting functional groups that allow for good electrical contact with the nerve without the need for continuous application of pressure on the nerve. A transfer process is used to fabricate the device using poly(acrylic acid) as the sacrificial material that has tunable solubility in aqueous media. This avoids the need for harsh release chemicals that may affect the properties of the hydrogel. The transfer process also allows for electrode contacts that are flush with the surface of the probe and allow intimate contact of with the nerve, as compared with typical recessed electrode contacts. Patterned SU-8 provides a gradual change in Young's modulus from the stiff pad region to the compliant electrode contact region. The measured impedance of the 75 μm radius Pt electrode contacts is ∼100 kΩ. In vivo recordings have been demonstrated using fabricated devices in the dorsal root ganglia of a cat.

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超柔顺周围神经袖电极与水凝胶粘连

本文报道了一种粘接水凝胶制备周围神经袖电极的方法。与聚酰亚胺或PDMS制成的典型袖带电极相比，神经袖电极更加柔顺，并且含有促进粘连的官能团，可以与神经进行良好的电接触，而无需持续对神经施加压力。采用转移工艺以聚丙烯酸作为在水介质中具有可调溶解度的牺牲材料来制造该装置。这避免了对可能影响水凝胶性能的刺激性释放化学物质的需求。与典型的嵌入式电极接触相比，该转移过程还允许电极接触与探头表面平直，并允许与神经密切接触。图图化的SU-8提供了从硬垫区域到柔性电极接触区域的杨氏模量的逐渐变化。半径为75 μm的Pt电极触点的测量阻抗为~ 100 kΩ。在猫的背根神经节中使用制造的装置进行了体内记录。

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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2018 IEEE Micro Electro Mechanical Systems (MEMS)

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