Efficacy of collagen-only scaffolds compared to polymer-associated collagen and nanomaterials in skin wound repair – a review

IF 0.6 4区 农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY
Jiulia Tereza Marques de Castro, Rafael Barreto, E. C. Alvarenga, R. A. Costa
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引用次数: 1

Abstract

Wound healing remains a clinical problem, with cases of atrophic, hypertrophic, or keloid scars. Three-dimensional scaffolds have been used to restore skin function, facilitating cell migration, adhesion, and proliferation. Collagen is the most common, presenting low antigenicity, decreased inflammation, and replacement by autologous tissue. It is used as sheets/films, sponges, membranes, sprays, and hydrogels of various origins. This integrative literature review aimed to evaluate the application of unassociated collagen scaffolds for skin wound healing and compare them to collagen associations with nanomaterials and polymers. Properties such as applications in humans and other unconventional models cause burns, partial and full-thickness wounds, and others. Scaffold, biomaterials, collagen, wound, injury, repair, and healing were among the descriptors. We found 3,098 articles published between 1995 and 2022 (Mendeley platform), including clinical/experimental trials. After exclusion, 26 studies were identified and analyzed. Autologous and heterologous collagens are the most used in the clinic and favor wound closure by improving re-epithelialization and reducing inflammation but may present challenges in aesthetic acceptance and loss of repair function in the wound site. Furthermore, collagen integration with other nanomaterials improved wound repair and experimental models.
单纯胶原蛋白支架与聚合物相关胶原蛋白和纳米材料在皮肤伤口修复中的效果比较
伤口愈合仍然是一个临床问题,有萎缩、增生或瘢痕疙瘩的病例。三维支架已被用于恢复皮肤功能,促进细胞迁移、粘附和增殖。胶原蛋白是最常见的,具有抗原性低、炎症减少和被自体组织替代的特点。它被用作各种来源的片材/薄膜、海绵、膜、喷雾剂和水凝胶。这篇综合文献综述旨在评估无关联胶原支架在皮肤伤口愈合中的应用,并将其与纳米材料和聚合物的胶原结合进行比较。在人体和其他非常规模型中的应用等特性会导致烧伤、部分和全层伤口等。支架、生物材料、胶原、伤口、损伤、修复和愈合是描述因素。我们发现了1995年至2022年间发表的3098篇文章(Mendeley平台),包括临床/实验试验。排除后,确定并分析了26项研究。自体和异源胶原在临床上使用最多,通过改善上皮再上皮化和减少炎症有利于伤口闭合,但可能会对审美接受和伤口修复功能的丧失提出挑战。此外,胶原蛋白与其他纳米材料的结合改善了伤口修复和实验模型。
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
Bioscience Journal
Bioscience Journal Agricultural and Biological Sciences-General Agricultural and Biological Sciences
CiteScore
1.00
自引率
0.00%
发文量
90
审稿时长
48 weeks
期刊介绍: The Bioscience Journal is an interdisciplinary electronic journal that publishes scientific articles in the areas of Agricultural Sciences, Biological Sciences and Health Sciences. Its mission is to disseminate new knowledge while contributing to the development of science in the country and in the world. The journal is published in a continuous flow, in English. The opinions and concepts expressed in the published articles are the sole responsibility of their authors.
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