周围神经修复策略

Current tissue microenvironment reports Pub Date : 2020-01-01 Epub Date: 2020-04-21 DOI:10.1007/s43152-020-00002-z
Matthew Wilcox, Holly Gregory, Rebecca Powell, Tom J Quick, James B Phillips
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引用次数: 0

摘要

综述目的:本综述侧重于开发适合在 PNI 后植入的生物材料和工程组织所需的生物力学和细胞学考虑因素,以及与测试患者成功率的结果测量有关的转化要求:结合再生环境多个方面的疗法可能是改善神经再生疗法的关键。考虑到所涉及的生物、化学和机械因素的多样性,这是一项复杂的挑战。此外,还需要对神经损伤和再生后组织微环境的变化具有敏感性和反应性的外周神经修复后临床结果测量方法。摘要:治疗外周神经损伤的有效新疗法可能包括能够唤起组织微环境的工程组织和生物材料,这种组织微环境结合了支持再生的生物化学和机械特征。将这些技术转化为人体临床应用的同时,还需要改进临床测量方法,以量化神经再生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Strategies for Peripheral Nerve Repair.

Strategies for Peripheral Nerve Repair.

Strategies for Peripheral Nerve Repair.

Purpose of review: This review focuses on biomechanical and cellular considerations required for development of biomaterials and engineered tissues suitable for implantation following PNI, as well as translational requirements relating to outcome measurements for testing success in patients.

Recent findings: Therapies that incorporate multiple aspects of the regenerative environment are likely to be key to improving therapies for nerve regeneration. This represents a complex challenge when considering the diversity of biological, chemical and mechanical factors involved. In addition, clinical outcome measures following peripheral nerve repair which are sensitive and responsive to changes in the tissue microenvironment following neural injury and regeneration are required.

Summary: Effective new therapies for the treatment of PNI are likely to include engineered tissues and biomaterials able to evoke a tissue microenvironment that incorporates both biochemical and mechanical features supportive to regeneration. Translational development of these technologies towards clinical use in humans drives a concomitant need for improved clinical measures to quantify nerve regeneration.

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