Ultrasmall gold Nanoparticles/Carboxymethyl chitosan composite hydrogel: Tough, restorable, biocompatible antimicrobial dressing for wound healing

•PAA-CMCS-Au hydrogel showed substantial antibacterial activities against both G+ and G- bacteria.•PAA-CMCS-Au hydrogel showed excellent Mechanical, Rheological, and Self-Healing Properties.•PAA-CMCS-Au hydrogels compromised bacterial membrane integrity and disrupted metabolic activities.•PAA-CMCS-A...

Full description

Saved in:
Bibliographic Details
Published in:Applied materials today 2024-06, Vol.38, p.102206, Article 102206
Main Authors: Dong, Hao, Feng, Chenjie, Zhu, Junlin, Gu, Xinyue, Cai, Xiyunyi, Qian, Hongfa, Gao, Yuan, Tan, Zheng, Cao, Yiming, Xie, Wen, Lu, Xuanren, Zhou, Yanjie, Xu, Jiayi, Ma, Shuangyu, Yang, Sha, Shi, Yufeng, Shi, Minjie, Yu, Haojiang, Jiang, Dongyue, Jiang, Qi, Diao, Weiwei, Liu, Yulin, Wang, Chen, Wu, Liang
Format: Article
Language:English
Subjects:
Antibacterial hydrogel
Self-healing
Ultrasmall gold nanoparticles (UsAuNPs)
Wound dressing material
Wound healing
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•PAA-CMCS-Au hydrogel showed substantial antibacterial activities against both G+ and G- bacteria.•PAA-CMCS-Au hydrogel showed excellent Mechanical, Rheological, and Self-Healing Properties.•PAA-CMCS-Au hydrogels compromised bacterial membrane integrity and disrupted metabolic activities.•PAA-CMCS-Au hydrogel effectively promoted skin structure reconstruction and accelerated wound healing, which showed its great potential as a wound dressing. Bacterial infection is one of the most challenging tasks in biomedical fields and still remains a serious threat to human lives today. Antibacterial hydrogel has attracted increasing scholarly interest as a promising wound dressing material. The antibacterial properties of ultrasmall gold nanoparticles (UsAuNPs) have also been widely recognized. Developing a tensile, self-healable, biocompatible composite hydrogel with desirable antibacterial properties to facilitate wound recovery is essential to improve treatment outcomes. However, UsAuNPs self-aggregate easily, resulting in decreased antibacterial effectiveness and limited clinical application. To address this problem, a composite material, UsAuNPs and carboxymethyl chitosan (UsAuNPs@CMCS) was designed. CMCS limit the self-aggregation of gold nanoparticles (AuNPs) at the size of 1–3 nm and attracts bacteria carrying negative charge on the surface, which renders the high antibacterial efficacy of the composite material. When the composite was crosslinked with the highly compatible polyacrylic acid (PAA) backbone of the hydrogel, the resulting PAA-CMCS-Au hydrogel displayed desirable antibacterial properties and facilitated wound recovery in vivo. This research establishes a new strategy to prevent the self-aggregation of UsAuNPs, and provides new insights in treating wounds with antibacterial composite hydrogels. [Display omitted]
ISSN:2352-9407
2352-9415
DOI:10.1016/j.apmt.2024.102206