Conducting polymer (CP) scaffolds have emerged as a transformative tool in bioelectronics and bioengineering, advancing the ability to interface with biological systems. Their unique combination of electrical conductivity, tailorability, and biocompatibility surpasses the capabilities of traditional nonconducting scaffolds while granting them access to the realm of bioelectronics. This review examines recent developments in CP scaffolds, focusing on material and device advancements, as well as their interplay with biological systems. We highlight applications for monitoring, tissue stimulation, and drug delivery and discuss perspectives and challenges currently faced for their ultimate translation and clinical implementation.

中文翻译：

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导电聚合物支架：生物电子学和生物工程的新领域


导电聚合物（CP）支架已成为生物电子学和生物工程领域的变革性工具，提高了与生物系统交互的能力。它们的导电性、可定制性和生物相容性的独特组合超越了传统非导电支架的能力，同时使它们能够进入生物电子领域。本综述探讨了 CP 支架的最新发展，重点关注材料和设备的进步，以及它们与生物系统的相互作用。我们重点介绍监测、组织刺激和药物输送方面的应用，并讨论其最终转化和临床实施目前面临的观点和挑战。