采用浸涂法将通用聚对二甲苯微电极阵列植入大鼠脑内进行急性体内记录。

Acute in vivo Recording with a Generic Parylene Microelectrode Array Implanted with Dip-coating Method into the Rat Brain.

出版信息

Annu Int Conf IEEE Eng Med Biol Soc. 2022 Jul;2022:214-217. doi: 10.1109/EMBC48229.2022.9870987.

DOI:10.1109/EMBC48229.2022.9870987

Abstract

Flexible polymer-based microelectrode arrays (MEAs) can reduce tissue inflammation and foreign body response and greatly prolong the lifetime of neural implants. However, standard and customized polymer devices are only accessible to limited groups. To better promote the development and application of polymer MEAs, we have launched the Polymer Implantable Electrode (PIE) Foundry and developed a 64-channel Parylene C-based MEA with generic electrodes layout that can be used to record from both cortical and sub-cortical regions in rodents. In addition, a practical dip-coating protocol for the insertion of the flexible standard Parylene MEA is developed.

摘要

基于柔性聚合物的微电极阵列 (MEA) 可以减少组织炎症和异物反应，极大地延长神经植入物的使用寿命。然而，标准和定制聚合物器件仅对有限的群体开放。为了更好地促进聚合物 MEA 的发展和应用，我们已经启动了聚合物植入式电极 (PIE) 铸造厂，并开发了一种基于聚对二甲苯 C 的 64 通道 MEA，具有通用的电极布局，可以用于记录啮齿动物的皮质和皮质下区域。此外，还开发了一种实用的柔性标准聚对二甲苯 MEA 插入浸涂协议。

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采用浸涂法将通用聚对二甲苯微电极阵列植入大鼠脑内进行急性体内记录。

Acute in vivo Recording with a Generic Parylene Microelectrode Array Implanted with Dip-coating Method into the Rat Brain.

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