再生医学中的电纺纤维免疫工程

Yiru Xu, Qimanguli Saiding, Xue Zhou, Juan Wang, Wenguo Cui, Xinliang Chen
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引用次数: 0

摘要

免疫工程是再生医学的一个新兴领域,涉及一系列优化组织再生生物材料与宿主组织之间错综复杂的相互作用的策略。这些策略适用于不同类型的生物材料和各种疾病模型,包括在免疫细胞和免疫因子水平上精细调节免疫反应,旨在减轻损伤部位可能出现的纤维化和持续炎症等不利影响,从而促进组织再生。随着电纺技术的不断进步,多年来,电纺纤维的免疫调节能力得到了广泛关注。电纺纤维具有类似细胞外基质的特性、高表面积体积比和可靠的药物复合物容量,已成为组织工程材料中的重要角色。本综述特别关注电纺纤维免疫工程的作用,强调其独特的设计策略。值得注意的是,电纺丝通过以下四种基本策略调节免疫反应,积极参与免疫工程:(i) 表面改性;(ii) 药物负载;(iii) 物理化学参数;(iv) 生物接枝。本综述全面概述了受伤组织中免疫系统的复杂机制,同时揭示了电纺纤维在协调免疫调节方面所采用的关键策略。此外,该综述还探讨了电纺纤维免疫调节功能的当前发展趋势和局限性,旨在推动基于电纺纤维的免疫工程学充分发挥其潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Electrospun fiber‐based immune engineering in regenerative medicine
Immune engineering, a burgeoning field within regenerative medicine, involves a spectrum of strategies to optimize the intricate interplay between tissue regenerative biomaterials and the host tissue. These strategies are applied across different types of biomaterials and various disease models, which encompasses finely modulating the immune response at the levels of immune cells and factors, aiming to mitigate adverse effects like fibrosis and persistent inflammation that may arise at the injury site and consequently promote tissue regeneration. With the continuous progress in electrospinning technology, the immunoregulatory capabilities of electrospun fibers have gained substantial attention over the years. Electrospun fibers, with their extracellular matrix‐like characteristics, high surface‐area‐to‐volume ratio, and reliable pharmaceutical compound capacity, have emerged as key players among tissue engineering materials. This review specifically focuses on the role of electrospun fiber‐based immune engineering, emphasizing their unique design strategies. Notably, electrospinning actively engages in immune engineering by modulating immune responses through four essential strategies: (i) surface modification, (ii) drug loading, (iii) physicochemical parameters, and (iv) biological grafting. This review presents a comprehensive overview of the intricate mechanisms of the immune system in injured tissues while unveiling the key strategies adopted by electrospun fibers to orchestrate immune regulation. Furthermore, the review explores the current developmental trends and limitations concerning the immunoregulatory function of electrospun fibers, aiming to drive the advancements in electrospun fiber‐based immune engineering to its full potential.
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