AI Article Synopsis
- Various skin wounds are prone to infections from external bacteria, leading to chronic issues.
- Researchers developed a double network hydrogel dressing using polyethylene glycol diacrylate and catechol-modified hyaluronic acid with silver-doped nanoparticles to enhance wound healing.
- This innovative hydrogel responds to the acidic environment of infected wounds, allowing controlled release of silver for sustained antibacterial effects while promoting better tissue healing and inflammation reduction.
Article Abstract
Various cutaneous wounds are easily infected with external bacteria, which might result in a chronic wound and ongoing consequences. However, the appropriate development of biomaterials for the controllable delivery of antibacterial silver (Ag) and the simultaneous enhancement of mechanical adhesiveness remains an urgent challenge. Herein, we proposed a double network (DN) hydrogel dressings based on a covalent network of polyethylene glycol diacrylate (PEGDA) and a coordination network between catechol-modified hyaluronic acid (C-HA) and Ag-doped mesoporous silica nanoparticle (AMSN) for promoting the bacterial-infected full-thickness skin wound regeneration. This distinctive dual cross-linked structure of PEGDA/C-HA-AMSN significantly improved physicochemical properties, including gelation time, mechanical performance, and tissue adhesion strength. Importantly, PEGDA/C-HA-AMSN served as a hydrogel dressing that can respond to the acidic environment of bacterial-infected wounds leading to the controllable and optimized delivery of Ag, enabling the durable antibacterial activity accompanied by favorable cytocompatibility and angiogenesis capability. Further in vivo studies validated the higher efficacy of hydrogel dressings in treating wound healing by the synergistic antibacterial, anti-inflammatory, and pro-vascular strategies, meaning the prominent potential of the prepared dressings for overcoming the concerns of wound theranostics.
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| http://dx.doi.org/10.1016/j.carbpol.2022.120450 | DOI Listing |
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