抗炎,抗菌,抗氧化的生物活性玻璃基纳米纤维敷料使伤口愈合无疤痕

Q1 Engineering Smart Materials in Medicine Pub Date : 2023-01-01 DOI:10.1016/j.smaim.2023.01.001
Zhengchao Yuan , Lixiang Zhang , Shichao Jiang , Muhammad Shafiq , Youjun Cai , Yujie Chen , Jiahui Song , Xiao Yu , Hiroyuki Ijima , Yuan Xu , Xiumei Mo
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引用次数: 6

摘要

过度的疤痕组织形成以及细菌感染、出血和氧化伤口微环境对患者造成了不利的生理和心理影响,这就需要创新的抗炎、抗菌和抗氧化多功能伤口敷料的出现。本研究的首要目标是利用生物活性玻璃(BG)和一种天然抗菌成分,即“牛至精油(OEO)”,赋予聚L-丙交酯-共-甘醇内酯/明胶(PLGA/Gel)基纳米纤维敷料多功能性,用于切除性伤口管理。我们进行了一系列结构、形态学和释放研究,并在体外描述了这些生物活性敷料的血管生成、止血、抗菌和抗氧化特性,这些特性共同揭示了BG和OEO在快速止血、改善趋化反应、减少细菌定殖和抗炎反应方面的有益作用。令人印象深刻的是,在多种损伤模型中,包括大鼠尾部截肢模型、耳动脉损伤模型和兔体内肝损伤模型,我们报道了BG介导的快速止血。此外,含有BG的敷料显示出改善的血液相容性和抑制的凝血,如体外活化部分凝血活酶测定(APTT)所示。此外,在大鼠全层切除伤口模型中移植这些纳米纤维敷料显示出显著的组织再生,表现为更多的血管、腺体和毛囊,上皮化,炎症反应减少,纤维化组织形成减少。总之,我们同时利用经济的BG和OEO来实现用于组织修复的纳米纤维敷料的多功能性的方法可能对伤口愈合以及其他生物相关学科有很大的前景。
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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Anti-inflammatory, antibacterial, and antioxidative bioactive glass-based nanofibrous dressing enables scarless wound healing

Excessive scar tissue formation along with bacterial infection, hemorrhage, and oxidative wound microenvironment pose adverse physiological and psychological effects on patients, which necessitate the advent of innovative anti-inflammatory, anti-bacterial, and anti-oxidative multifunctional wound dressings. The overarching objective of this study was to exploit bioactive glass (BG) and a natural anti-bacterial component namely “oregano essential oil (OEO)” to impart multifunctionality to poly(L-lactide-co-glycolide)/Gelatin (PLGA/Gel)-based nanofibrous dressings for excisional wound management. We performed a series of structural, morphological, and release studies as well as delineated angiogenic, hemostatic, anti-bacterial, and anti-oxidative properties of these bioactive dressings in vitro, which altogether revealed the beneficial effects of BG and OEO in terms of rapid hemostasis, improved chemotactic response, diminished bacterial colonization, and anti-inflammatory response. Impressively, in multiple injury models, including a rat tail-amputation model, an ear artery injury model, and a liver trauma model in rabbit in vivo, we reported BG-mediated rapid hemostasis. Moreover, dressings containing BG showed improved hemocompatibility and suppressed coagulation as revealed by activated partial thromboplastin assay (APTT) in vitro. In addition, the transplantation of these nanofibrous dressings in a full-thickness excisional wound model in rats showed significant tissue regeneration as evidenced by the more number of blood vessels, glands, and hair follicles, re-epithelialization, diminished inflammatory response, and less fibrotic tissue formation. Taken together our approach of simultaneously harnessing economical BG and OEO to enable multifunctionality to nanofibrous dressings for tissue repair may hold great promise for wound healing as well as other bio-related disciplines.

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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
期刊最新文献
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