Biomimetic Strategies for Peripheral Nerve Injury Repair: An Exploration of Microarchitecture and Cellularization.

IF 2.5 3区 农林科学 Q3 FOOD SCIENCE & TECHNOLOGY
Jeremy M Perrelle, Andrew J Boreland, Jasmine M Gamboa, Prarthana Gowda, N Sanjeeva Murthy
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引用次数: 0

Abstract

Injuries to the nervous system present formidable challenges to scientists, clinicians, and patients. While regeneration within the central nervous system is minimal, peripheral nerves can regenerate, albeit with limitations. The regenerative mechanisms of the peripheral nervous system thus provide fertile ground for clinical and scientific advancement, and opportunities to learn fundamental lessons regarding nerve behavior in the context of regeneration, particularly the relationship of axons to their support cells and the extracellular matrix environment. However, few current interventions adequately address peripheral nerve injuries. This article aims to elucidate areas in which progress might be made toward developing better interventions, particularly using synthetic nerve grafts. The article first provides a thorough review of peripheral nerve anatomy, physiology, and the regenerative mechanisms that occur in response to injury. This is followed by a discussion of currently available interventions for peripheral nerve injuries. Promising biomaterial fabrication techniques which aim to recapitulate nerve architecture, along with approaches to enhancing these biomaterial scaffolds with growth factors and cellular components, are then described. The final section elucidates specific considerations when developing nerve grafts, including utilizing induced pluripotent stem cells, Schwann cells, nerve growth factors, and multilayered structures that mimic the architectures of the natural nerve.

外周神经损伤修复的仿生策略:微结构和细胞化的探索。
神经系统的损伤给科学家、临床医生和病人带来了严峻的挑战。虽然中枢神经系统的再生能力微乎其微,但周围神经却可以再生,尽管有一定的局限性。因此,周围神经系统的再生机制为临床和科学进步提供了肥沃的土壤,也为我们提供了在再生过程中学习神经行为基本知识的机会,特别是轴突与其支持细胞和细胞外基质环境之间的关系。然而,目前很少有干预措施能充分解决周围神经损伤问题。本文旨在阐明可在哪些领域取得进展,以开发更好的干预措施,特别是使用合成神经移植物。文章首先全面回顾了周围神经解剖学、生理学以及损伤后的再生机制。随后讨论了目前可用于治疗周围神经损伤的干预措施。然后介绍了旨在再现神经结构的前景看好的生物材料制造技术,以及用生长因子和细胞成分增强这些生物材料支架的方法。最后一部分阐明了开发神经移植物时的具体注意事项,包括利用诱导多能干细胞、许旺细胞、神经生长因子和模仿天然神经结构的多层结构。
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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来源期刊
CiteScore
5.30
自引率
7.10%
发文量
35
审稿时长
3 months
期刊介绍: The Australian Journal of Grape and Wine Research provides a forum for the exchange of information about new and significant research in viticulture, oenology and related fields, and aims to promote these disciplines throughout the world. The Journal publishes results from original research in all areas of viticulture and oenology. This includes issues relating to wine, table and drying grape production; grapevine and rootstock biology, genetics, diseases and improvement; viticultural practices; juice and wine production technologies; vine and wine microbiology; quality effects of processing, packaging and inputs; wine chemistry; sensory science and consumer preferences; and environmental impacts of grape and wine production. Research related to other fermented or distilled beverages may also be considered. In addition to full-length research papers and review articles, short research or technical papers presenting new and highly topical information derived from a complete study (i.e. not preliminary data) may also be published. Special features and supplementary issues comprising the proceedings of workshops and conferences will appear periodically.
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