Development of novel microenvironments for promoting enhanced wound healing.

Current tissue microenvironment reports Pub Date : 2020-09-01 Epub Date: 2020-07-29 DOI:10.1007/s43152-020-00009-6
Grant Scull, Ashley C Brown
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引用次数: 3

Abstract

Purpose of review: Nonhealing wounds are a significant issue facing the healthcare industry. Materials that modulate the wound microenvironment have the potential to improve healing outcomes.

Recent findings: A variety of acellular and cellular scaffolds have been developed for regulating the wound microenvironment, including materials for controlled release of antimicrobials and growth factors, materials with inherent immunomodulative properties, and novel colloidal-based scaffolds. Scaffold construction methods include electrospinning, 3D printing, decellularization of extracellular matrix, or a combination of techniques. Material application methods include layering or injecting at the wound site.

Summary: Though these techniques show promise for repairing wounds, all material strategies thus far struggle to induce regeneration of features such as sweat glands and hair follicles. Nonetheless, innovative technologies currently in the research phase may facilitate future attainment of these features. Novel methods and materials are constantly arising for the development of microenvironments for enhanced wound healing.

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促进伤口愈合的新型微环境的发展。
综述目的:不愈合的伤口是医疗保健行业面临的一个重要问题。调节伤口微环境的材料有可能改善愈合结果。最近的研究发现:各种用于调节伤口微环境的脱细胞和细胞支架已经被开发出来,包括抗菌剂和生长因子的控释材料,具有固有免疫调节特性的材料,以及新型胶体基支架。支架的构建方法包括静电纺丝、3D打印、细胞外基质脱细胞或多种技术的组合。材料应用方法包括伤口部位分层或注射。摘要:尽管这些技术显示出修复伤口的希望,但迄今为止所有的材料策略都难以诱导汗腺和毛囊等特征的再生。尽管如此,目前处于研究阶段的创新技术可能有助于未来实现这些特征。为了提高伤口愈合的微环境的发展,新的方法和材料不断出现。
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