Regenerative peripheral nerve interfaces (RPNIs): an overview of innovative surgical approaches

Plastic and Aesthetic Research Pub Date : 2024-04-22 DOI:10.20517/2347-9264.2023.101

İpek Berberoğlu, Katherine L. Burke, Paul Cederna, Stephen W. P. Kemp

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Abstract

Complications following amputation can be devastating for patients, including debilitating neuropathic pain, the inability to perform activities of daily living (ADLs) or gain meaningful employment. While prosthesis use allows patients to restore independence and reintegrate into daily activities, patients often abandon these devices. Despite the immense advancements in prosthetic technology, there is still a need for an interface that can provide a natural experience with accurate and reliable long-term control. The Regenerative Peripheral Nerve Interface (RPNI) is a simple surgical technique that offers real-time control of myoelectric prosthetic devices to restore extremity function. This stable, biological nerve interface successfully amplifies efferent motor action potentials, provides sensory feedback, and offers a more functional prosthetic device experience. Based on the principles of RPNI, novel surgical approaches have been developed to expand its applications and improve outcomes. This review article summarizes the utilization of the RPNI and its recent modifications of different neural interfaces in the setting of major limb amputation and musculoskeletal injuries.

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再生性周围神经界面（RPNIs）：创新手术方法概述

截肢后的并发症可能会给患者带来毁灭性的打击，包括使人衰弱的神经性疼痛、无法进行日常生活活动（ADL）或获得有意义的工作。虽然使用假肢可以让患者恢复独立并重新参与日常活动，但患者往往会放弃这些装置。尽管假肢技术取得了巨大进步，但仍然需要一种能够提供自然体验、准确可靠的长期控制的界面。再生外周神经接口（RPNI）是一种简单的外科技术，可实时控制肌电假肢装置，恢复肢体功能。这种稳定的生物神经接口可成功放大传出运动动作电位，提供感觉反馈，并提供功能更强的义肢装置体验。基于 RPNI 的原理，人们开发出了新颖的手术方法，以扩大其应用范围并改善疗效。这篇综述文章总结了在大肢截肢和肌肉骨骼损伤的情况下使用 RPNI 及其最近对不同神经接口的改进。

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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Plastic and Aesthetic Research

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