多功能纤维敷料治疗烧伤疼痛、肿胀减轻及瘢痕愈合

IF 17.2 1区 工程技术 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Zhengchao Yuan, Yue Zhao, Muhammad Shafiq, Jiahui Song, Jing Hou, Yuqing Liang, Xiao Yu, Yujie Chen, Fan Yu, Mohamed EL-Newehy, Hany EL-Hamshary, Yosry Morsi, Shichao Jiang, Hui Zheng, Xiumei Mo
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引用次数: 1

摘要

皮肤烧伤是最常见的皮肤损伤形式之一,常伴有水肿疼痛、感染化脓、组织再生缓慢、瘢痕形成严重,严重影响创面愈合,影响生活质量。我们制备了多功能静电纺丝聚(l -乳酸-羟基乙酸酯)/明胶(P/G)为基础的敷料,以协同利用薄荷精油(T),烧伤软膏(B)和牛至精油(O) (P/G@TBO)的治疗效果,用于损伤和烧伤模型的皮肤再生。P/G@TBO膜可在24小时内持续释放生物活性因子长达72小时,并显著促进细胞迁移(P/G@TBO, 89%,对照组,51%)。P/G@TBO膜在体外也显示出显著的血管生成作用以及抗菌和抗炎特性。此外,P/G@TBO敷料能够在大鼠全层切除缺损模型中快速愈合(ca. P/G@TBO,伤口愈合100%,对照组,95%)长达14天。对不同动物模型(摇尾模型、面部瘙痒模型和热烧伤模型)中膜的进一步评估显示,在伤口愈合的早期阶段,膜具有显著的镇痛作用以及瘙痒和肿胀的缓解作用。然后将膜移植到大鼠烫伤创面模型和家兔耳穿孔创面模型中,显示出抗菌和抗炎的特性,并促进再上皮化,使创面无疤痕愈合率在第28天达到:P/G@TBO, 96%,对照组66%。综合我们的方法,同时利用T, B和O来实现纤维敷料的多功能,可能对烧伤伤口愈合应用和其他相关学科有很大的希望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multi-Functional Fibrous Dressings for Burn Injury Treatment with Pain and Swelling Relief and Scarless Wound Healing

Multi-Functional Fibrous Dressings for Burn Injury Treatment with Pain and Swelling Relief and Scarless Wound Healing

As one of the most common forms of skin injuries, skin burns are often accompanied by edema pain, suppuration of infection, slow tissue regeneration, and severe scar formation, which significantly delay wound healing as well as affect the quality of life. We prepared multifunctional electrospun poly(L-lactide-co-glycolide)/gelatin (P/G)-based dressings to synergistically harness the therapeutic benefits of peppermint essential oil (T), burn ointment (B), and Oregano essential oil (O) (P/G@TBO) for skin regeneration in punch and burn injury models. The P/G@TBO can afford the sustained release of bioactive cues for up to 72 h as well as remarkably promote cell migration (ca. P/G@TBO, 89% vs. control group, 51%) at 24 h. The P/G@TBO membranes also showed significant angiogenic effect as well as antibacterial and anti-inflammatory properties than that of the control group in vitro. Moreover, P/G@TBO dressings enabled fast wound healing (ca. P/G@TBO, 100% wound closure vs. control group, 95%) in a full-thickness excisional defect model up to 14 days in rats. Further evaluation of membranes in different animal models, including tail wagging model, facial itch model, and hot burn injury model showed significant pain relieve effect as well as itching and swelling relief functions during earlier stages of wound healing. Membranes were next transplanted into a scalded wound model in rats and an ear punch wound model in rabbits, which manifested antibacterial and anti-inflammatory properties and promoted re-epithelialization to achieve scarless wound healing percentage wound closure at day 28: P/G@TBO, 96% vs. control group 66%. Taken together our approach of simultaneously harnessing T, B, and O to enable multifunctionality to fibrous dressings may hold great promise for burn wound healing applications and other related disciplines.

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来源期刊
CiteScore
18.70
自引率
11.20%
发文量
109
期刊介绍: Advanced Fiber Materials is a hybrid, peer-reviewed, international and interdisciplinary research journal which aims to publish the most important papers in fibers and fiber-related devices as well as their applications.Indexed by SCIE, EI, Scopus et al. Publishing on fiber or fiber-related materials, technology, engineering and application.
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