Litcius/Paper detail

The synergetic effect of alginate-derived hydrogels and metal–phenolic nanospheres for chronic wound therapy

Donghai Li, Mengzhu Li, Liangyu Wang, Jie Zhang, Xiaoyue Wang, Jun Nie, Guiping Ma

2024Journal of Materials Chemistry B28 citationsDOI

Abstract

Management of diabetic wounds presents a global health challenge due to elevated levels of ROS in the wound microenvironment, persistent dysregulation of inflammation modulation, and limitations in commercially available dressings. Addressing this issue, we have developed a pH-responsive and glucose-sensitive multifunctional hydrogel dressing that dynamically responds to the wound microenvironment and enables on-demand drug release. The dressing incorporates a matrix material based on aminophenylboronic acid-functionalized alginate and a polyhydroxy polymer, alongside an enhancer phase consisting of self-assembled metal-phenol coordination nanospheres formed by tannic acid and iron ions. Using the dynamic borate ester bonds and catechol-metal ion coordination bonds, the dressing exhibits remarkable shape adaptability, self-healing capability, tissue adhesiveness, antioxidant activity, and photothermal responsiveness, without additional curatives or crosslinking agents. As a wound dressing, it elicits macrophage polarization towards an anti-inflammatory phenotype while maintaining long-lasting antimicrobial effects. In a diabetic mouse model of full-thickness wound infections, it effectively mitigated inflammation and vascular damage, significantly expediting the wound healing process with a commendable 97.7% wound closure rate. This work provides a new direction for developing multifunctional smart hydrogel dressings that can accelerate diabetic wound healing for human health.

Topics & Concepts

Wound healingSelf-healing hydrogelsChitosanMaterials scienceChemistryMedicineBiochemistryPolymer chemistrySurgeryWound Healing and TreatmentsElectrospun Nanofibers in Biomedical ApplicationsAntimicrobial agents and applications