Issue 31, 2023

Wound healing strategies based on nanoparticles incorporated in hydrogel wound patches

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.

Graphical abstract: Wound healing strategies based on nanoparticles incorporated in hydrogel wound patches

Article information

Article type
Review Article
Submitted
24 May 2023
Accepted
07 Jul 2023
First published
17 Jul 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 21345-21364

Wound healing strategies based on nanoparticles incorporated in hydrogel wound patches

P. Dam, M. Celik, M. Ustun, S. Saha, C. Saha, E. A. Kacar, S. Kugu, E. N. Karagulle, S. Tasoglu, F. Buyukserin, R. Mondal, P. Roy, M. L. R. Macedo, O. L. Franco, M. H. Cardoso, S. Altuntas and A. K. Mandal, RSC Adv., 2023, 13, 21345 DOI: 10.1039/D3RA03477A

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