用于消炎和促进伤口愈合的肝素负载分层纤维/微球支架

Q1 Engineering Smart Materials in Medicine Pub Date : 2024-02-27 DOI:10.1016/j.smaim.2024.02.002
Kai Cheng , Yan Deng , Lin Qiu , Shuhang Song , Lei Chen , LinGe Wang , Qianqian Yu
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引用次数: 0

摘要

氧化应激和炎症诱发的慢性不愈合伤口会激活炎症细胞并产生大量炎症介质,从而无法维持皮肤的平衡,延缓伤口愈合过程。针对这一问题,研究人员制备了由电纺纤维和电喷微球组成的肝素负载分层复合支架,以作为一种有效的抗炎伤口敷料。不同电喷密度的微球沉积在电纺纤维表面,以改善表面地形线索和细胞活性。结果表明,电纺纤维经 3 分钟电喷后制成的纤维/微球复合支架在促进细胞活性方面性能最佳,无明显细胞毒性,粘附形态良好,细胞迁移率最快。此外,复合支架中还添加了适量的肝素,以减轻炎症反应。肝素负载复合支架对炎症介质 MCP-1 有明显的吸附效率,表明其在体外具有良好的抗炎效果。此外,与商用 3 M Tegaderm 和非肝素负载支架相比,肝素负载分层支架加快了体内炎症伤口愈合的速度。我们的研究为制造肝素负载分层纤维/微球支架提供了一种简便的策略,通过地形线索调节细胞活性,并通过肝素和 MCP-1 之间的静电相互作用加速炎症伤口愈合过程。这些研究结果表明,肝素负载的分层支架有望成为一种用于炎症伤口愈合的敷料。
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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Heparin-loaded hierarchical fiber/microsphere scaffolds for anti-inflammatory and promoting wound healing

Chronic non-healing wounds induced by oxidative stress and inflammation can activate inflammatory cells and produce large amounts of inflammatory mediators, which fail to maintain homeostasis in the skin and delay the wound-healing process. To tackle this issue, heparin-loaded hierarchical composite scaffolds comprised of electrospun fibers and electrosprayed microspheres were prepared to act as an effective anti-inflammatory wound dressing. Microspheres with different electrosprayed densities were deposited into the surface of the electrospun fibers for the improvement of surface topographical cues and cellular activities. The results indicated that the electrospun fibers followed by electrosprayed for 3 ​min to fabricate the composite fiber/microsphere scaffolds contributed to the best performance in terms of promoting cellular activities, with no obvious cytotoxicity, good adhesion morphology, and the fastest cell migration rate. In addition, a suitable amount of heparin was added to the composite scaffolds to alleviate inflammation. The significant adsorption efficiency of heparin-loaded composite scaffolds on inflammatory mediator MCP-1 indicates a favorable anti-inflammation effect in vitro. Furthermore, the heparin-loaded hierarchical scaffolds accelerated the pace of inflammatory wound healing in vivo when compared to commercial 3 ​M Tegaderm and non-heparin-loaded scaffolds. Our work provided a facile strategy for fabricating heparin-loaded hierarchical fiber/microsphere scaffolds to modulate cellular activities via topographical cues and accelerating the inflammatory wound healing process by electrostatic interactions between heparin and MCP-1. These findings suggested that the heparin-loaded hierarchical scaffold was expected to be a promising dressing for inflammatory wound healing.

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来源期刊
Smart Materials in Medicine
Smart Materials in Medicine Engineering-Biomedical Engineering
CiteScore
14.00
自引率
0.00%
发文量
41
审稿时长
48 days
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