Fibrous hydrogels by electrospinning: Novel platforms for biomedical applications.

IF 6.7 1区 工程技术 Q1 CELL & TISSUE ENGINEERING
Ji Woo Lee, Kwang Hoon Song
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引用次数: 1

Abstract

Hydrogels, hydrophilic and biocompatible polymeric networks, have been used for numerous biomedical applications because they have exhibited abilities to mimic features of extracellular matrix (ECM). In particular, the hydrogels engineered with electrospinning techniques have shown great performances in biomedical applications. Electrospinning techniques are to generate polymeric micro/nanofibers that can mimic geometries of natural ECM by drawing micro/nanofibers from polymer precursors with electrical forces, followed by structural stabilization of them. By exploiting the electrospinning techniques, the fibrous hydrogels have been fabricated and utilized as 2D/3D cell culture platforms, implantable scaffolds, and wound dressings. In addition, some hydrogels that respond to external stimuli have been used to develop biosensors. For comprehensive understanding, this review covers electrospinning processes, hydrogel precursors used for electrospinning, characteristics of fibrous hydrogels and specific biomedical applications of electrospun fibrous hydrogels and highlight their potential to promote use in biomedical applications.

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静电纺丝纤维水凝胶:生物医学应用的新平台。
水凝胶,亲水性和生物相容性聚合物网络,由于具有模拟细胞外基质(ECM)特征的能力,已被用于许多生物医学应用。特别是用静电纺丝技术制备的水凝胶在生物医学领域表现出了良好的应用前景。静电纺丝技术是通过用电将聚合物前驱体拉伸成微/纳米纤维,然后对其进行结构稳定,从而生成能够模仿天然ECM几何形状的聚合物微/纳米纤维。利用静电纺丝技术制备纤维水凝胶,并将其用作2D/3D细胞培养平台、可植入支架和伤口敷料。此外,一些对外界刺激有反应的水凝胶已被用于开发生物传感器。本文综述了静电纺丝工艺、用于静电纺丝的水凝胶前体、纤维水凝胶的特性以及纤维水凝胶在生物医学上的具体应用,并强调了其在生物医学上的应用潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Tissue Engineering
Journal of Tissue Engineering Engineering-Biomedical Engineering
CiteScore
11.60
自引率
4.90%
发文量
52
审稿时长
12 weeks
期刊介绍: The Journal of Tissue Engineering (JTE) is a peer-reviewed, open-access journal dedicated to scientific research in the field of tissue engineering and its clinical applications. Our journal encompasses a wide range of interests, from the fundamental aspects of stem cells and progenitor cells, including their expansion to viable numbers, to an in-depth understanding of their differentiation processes. Join us in exploring the latest advancements in tissue engineering and its clinical translation.
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