分子生物学
IVD分子诊断
细胞培养与分析
蛋白研究
细胞因子
重组蛋白
抗体
高通量测序建库
病原检测UCF系列
生物医药
工具酶
抑制剂激活剂与常用试剂
仪器
耗材

Catechol-functionalized Chitosan/Polyvinyl alcohol hydrogel microneedles integrating multimodal antibacterial nanocomposites for enhanced wound healing

Wenrui Ma, Hengjun zhang, Jiaqi Liu, Hanqing Xu, Xianling Dai, Man Shen, Junjie Fan, Yingchun Huang, Shuang Wang, Ruijie Ai, Lulu Liu, Jing Bao, Ming Chen

Journal:MATERIALS & DESIGN

IF:8.2

DOI:10.1016/j.matdes.2026.115811

PMID:

Published:2026-03-07

research field:伤口护理药物递送系统生物材料生物医学工程抗菌治疗组织工程纳米医学

Abstract

Pathogenic bacterial infections, particularly antibiotic-resistant strains, severely impede wound healing, increasing patient pain and healthcare costs. Herein, we engineered a bioinspired, adhesive and near-infrared (NIR)-responsive hydrogel microneedles (MNs) patch for transdermal delivery of multifunctional antimicrobials to treat infected wound. The patch consisted of a mussel-mimetic hydrogel matrix of 3, 4-dihydroxyphenylacetic acid-modified chitosan and poly (vinyl alcohol) (DLC/PVA). The DLC/PVA hydrogel MNs were loaded with engineered antimicrobial nanocomposites (SAMnPor@TA/Ag-HA), featuring NIR-activatable manganese porphyrin assemblies (SAMnPor), ultrasmall tannic acid-chelated silver (TA/Ag) nanoparticles, and a protective hyaluronic acid (HA) outer layer. These organic–inorganic nanocomposites conferred the DLC/PVA MNs with multimodal antibacterial activity driven by photodynamic, photothermal and metalloantimicrobial effects, including rapid disinfection under NIR irradiation and sustained antibacterial activity in the absence of light. In mouse bacterial-infected wound models, a single administration of the DLC/PVA MNs patch exerted superior antimicrobial efficacy and wound healing ability, highlighting its great potential in combating bacterial infections and promoting tissue regeneration. Compared with common hyaluronic acid methacrylated (HAMA) MNs, the DLC/PVA MNs exhibited appropriate tissue adhesion and remarkable antioxidant activity due to the integration of mussel-derived catechol groups. This study offers a promising long-term wound care strategy by integrating advanced antibacterial nanocomposites within a polysaccharide-based microneedle platform.

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