Recent Advances in Electrospun Fibers for Biological Applications

Macromol Pub Date : 2023-08-16 DOI:10.3390/macromol3030033
Bénédicte Fromager, Emilie Marhuenda, Benjamin Louis, N. Bakalara, J. Cambedouzou, David Cornu
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引用次数: 0

Abstract

Electrospinning is a simple and versatile method to generate nanofibers. Remarkable progress has been made in the development of the electrospinning process. The production of nanofibers is affected by many parameters, which influence the final material properties. Electrospun fibers have a wide range of applications, such as energy storage devices and biomedical scaffolds. Among polymers chosen for biological scaffolds, such as PLA or collagen, polyacrylonitrile (PAN) has received increasing interest in recent years due to its excellent characteristics, such as spinnability, biocompatibility, and commercial viability, opening the way to new applications in the biotechnological field. This paper provides an overview of the electrospinning process of a large range of polymers of interest for biomedical applications, including PLA and PEO. It covers the main parameters and operation modes that affect nanofiber fabrication. Their biological applications are reviewed. A focus is placed on PAN fiber formation, functionalization, and application as scaffolds to allow cell growth. Overall, nanofiber scaffolds appear to be powerful tools in medical applications that need controlled cell culture.
生物电纺纤维研究进展
静电纺丝是一种简单而通用的制备纳米纤维的方法。静电纺丝工艺的发展取得了显著的进展。纳米纤维的生产受到许多参数的影响,这些参数影响着最终材料的性能。电纺纤维在储能装置、生物医学支架等方面有着广泛的应用。在聚乳酸或胶原蛋白等生物支架材料中,聚丙烯腈(PAN)因其可纺性、生物相容性和商业可行性等优良特性,近年来受到越来越多的关注,为生物技术领域开辟了新的应用途径。本文概述了静电纺丝工艺的大范围的感兴趣的生物医学应用的聚合物,包括聚乳酸和聚氧乙烯。介绍了影响纳米纤维制备的主要参数和操作模式。综述了它们的生物学应用。重点放在聚丙烯腈纤维的形成,功能化和应用作为支架,使细胞生长。总的来说,纳米纤维支架在需要控制细胞培养的医学应用中似乎是强有力的工具。
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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CiteScore
5.20
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0.00%
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