电导率聚多巴胺-聚吡咯作为高性能生物材料，用于体外细胞刺激和体内电信号记录。

Electrically Conductive Polydopamine-Polypyrrole as High Performance Biomaterials for Cell Stimulation in Vitro and Electrical Signal Recording in Vivo.

机构信息

Department of Chemistry and Materials Science Institute , Lancaster University , Lancaster , Lancashire LA1 4YB , U.K.

出版信息

ACS Appl Mater Interfaces. 2018 Oct 3;10(39):33032-33042. doi: 10.1021/acsami.8b11546. Epub 2018 Sep 19.

PMID:30192136

Abstract

Conductive polymers (CPs) such as polypyrrole (PPY) are emerging biomaterials for use as scaffolds and bioelectrodes which interact with biological systems electrically. Still, more electrically conductive and biologically interactive CPs are required to develop high performance biomaterials and medical devices. In this study, in situ electrochemical copolymerization of polydopamine (PDA) and PPY were performed for electrode modification. Their material and biological properties were characterized using multiple techniques. The electrical properties of electrodes coated with PDA/PPY were superior to electrodes coated with PPY alone. The growth and differentiation of C2C12 myoblasts and PC12 neuronal cells on PDA/PPY was enhanced compared to PPY. Electrical stimulation of PC12 cells on PDA/PPY further promoted neuritogenesis. In vivo electromyography signal measurements demonstrated more sensitive signals from tibia muscles when using PDA/PPY-coated electrodes than bare or PPY-coated electrodes, revealing PDA/PPY to be a high-performance biomaterial with potential for various biomedical applications.

摘要

导电聚合物（CPs）如聚吡咯（PPY）是新兴的生物材料，可用作与生物系统电相互作用的支架和生物电极。然而，为了开发高性能的生物材料和医疗设备，需要具有更高导电性和更好生物交互性的 CPs。在这项研究中，进行了聚多巴胺（PDA）和 PPY 的原位电化学共聚，以进行电极修饰。使用多种技术对其材料和生物学特性进行了表征。涂有 PDA/PPY 的电极的导电性优于单独涂有 PPY 的电极。与 PPY 相比，C2C12 成肌细胞和 PC12 神经元细胞在 PDA/PPY 上的生长和分化得到了增强。对 PDA/PPY 上的 PC12 细胞进行电刺激进一步促进了神经突生成。体内肌电图信号测量结果表明，使用涂有 PDA/PPY 的电极比使用裸电极或涂有 PPY 的电极时，从胫骨肌肉获得的信号更灵敏，这表明 PDA/PPY 是一种具有多种生物医学应用潜力的高性能生物材料。

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电导率聚多巴胺-聚吡咯作为高性能生物材料，用于体外细胞刺激和体内电信号记录。

Electrically Conductive Polydopamine-Polypyrrole as High Performance Biomaterials for Cell Stimulation in Vitro and Electrical Signal Recording in Vivo.

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