基于掺入水凝胶伤口贴剂中的纳米颗粒的伤口愈合策略。

Wound healing strategies based on nanoparticles incorporated in hydrogel wound patches.

作者信息

Dam Paulami, Celik Merve, Ustun Merve, Saha Sayantan, Saha Chirantan, Kacar Elif Ayse, Kugu Senanur, Karagulle Elif Naz, Tasoglu Savaş, Buyukserin Fatih, Mondal Rittick, Roy Priya, Macedo Maria L R, Franco Octávio L, Cardoso Marlon H, Altuntas Sevde, Mandal Amit Kumar

机构信息

Chemical Biology Laboratory, Department of Sericulture, Raiganj University North Dinajpur West Bengal India

Biomedical Engineering Graduate Program, TOBB University of Economics and Technology Ankara 06560 Turkey.

出版信息

RSC Adv. 2023 Jul 17;13(31):21345-21364. doi: 10.1039/d3ra03477a. eCollection 2023 Jul 12.

DOI:10.1039/d3ra03477a

PMID:37465579

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10350660/

Abstract

The intricate, tightly controlled mechanism of wound healing that is a vital physiological mechanism is essential to maintaining the skin's natural barrier function. Numerous studies have focused on wound healing as it is a massive burden on the healthcare system. Wound repair is a complicated process with various cell types and microenvironment conditions. In wound healing studies, novel therapeutic approaches have been proposed to deliver an effective treatment. Nanoparticle-based materials are preferred due to their antibacterial activity, biocompatibility, and increased mechanical strength in wound healing. They can be divided into six main groups: metal NPs, ceramic NPs, polymer NPs, self-assembled NPs, composite NPs, and nanoparticle-loaded hydrogels. Each group shows several advantages and disadvantages, and which material will be used depends on the type, depth, and area of the wound. Better wound care/healing techniques are now possible, thanks to the development of wound healing strategies based on these materials, which mimic the extracellular matrix (ECM) microenvironment of the wound. Bearing this in mind, here we reviewed current studies on which NPs have been used in wound healing and how this strategy has become a key biotechnological procedure to treat skin infections and wounds.

摘要

伤口愈合是一种复杂且受到严格调控的生理机制，对于维持皮肤的天然屏障功能至关重要。由于伤口愈合给医疗系统带来巨大负担，众多研究都聚焦于此。伤口修复是一个涉及多种细胞类型和微环境条件的复杂过程。在伤口愈合研究中，人们提出了新的治疗方法以实现有效治疗。基于纳米颗粒的材料因具有抗菌活性、生物相容性以及在伤口愈合中增强的机械强度而备受青睐。它们可分为六大类：金属纳米颗粒、陶瓷纳米颗粒、聚合物纳米颗粒、自组装纳米颗粒、复合纳米颗粒以及载纳米颗粒水凝胶。每一类都有若干优缺点，具体使用哪种材料取决于伤口的类型、深度和面积。基于这些材料的伤口愈合策略模拟了伤口的细胞外基质（ECM）微环境，这使得更好的伤口护理/愈合技术成为可能。考虑到这一点，我们在此回顾了目前关于哪些纳米颗粒已被用于伤口愈合以及该策略如何成为治疗皮肤感染和伤口的关键生物技术程序的研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/66b6/10350660/6cdedf0e097a/d3ra03477a-f1.jpg

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基于掺入水凝胶伤口贴剂中的纳米颗粒的伤口愈合策略。

Wound healing strategies based on nanoparticles incorporated in hydrogel wound patches.

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