Ferrocene-Based Antioxidant Self-Healing Hydrogel via the Biginelli Reaction for Wound Healing

Yuan, Rui; Fang, Zhao; Liu, Fang; He, Xianzhe; Du, Sa; Zhang, Nan; Zeng, Qiang; Wei, Yen; Wu, Yuwei; Tao, Lei

doi:10.1021/acsmacrolett.4c00063

ACS Macro Lett.

2024

DOI: 10.1021/acsmacrolett.4c00063

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Ferrocene-Based Antioxidant Self-Healing Hydrogel via the Biginelli Reaction for Wound Healing

Rui Yuan,

Zhao Fang,

Fang Liu

et al.

Abstract: The development of antioxidant wound dressings to remove excessive free radicals around wounds is essential for wound healing. In this study, we developed an efficient strategy to prepare antioxidant self-healing hydrogels as wound dressings by combining multicomponent reactions (MCRs) and postpolymerization modification. A polymer containing ferrocene and phenylboronic acid groups was developed via the Biginelli reaction, followed by efficient modification. This polymer is antioxidant due to its ferrocene moi… Show more

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Cited by 4 publications

References 59 publications

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

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A Dry Patch with In Situ Solid-to-Gel Transformation for All-in-One Skin Wound Care

Liu,

Wang,

Ren

et al. 2024

ACS Appl. Mater. Interfaces

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Hydrogel-based dressing materials offer significant potential in expediting skin wound healing. Nevertheless, they face several challenges: poor adhesion to wound tissues, difficulties in preservation under ambient conditions, and limited multifunctionality to support all wound healing stages. In this work, a dry patch is designed to address these persistent issues by featuring an in situ solid-to-gel transformation and Janus wet tissue adhesiveness. The HGP patch integrates a wet adhesive layer combining dopamineconjugated hyaluronic acid (HD) and poly(acrylic acid) (PAA), a drug-loading layer comprising gelatin (Gel), and a nonadhesive gelation layer of poly(vinyl alcohol) (PVA) and sodium alginate (SA). This hierarchical structural design confers exceptional wound adhesion, hemostatic capabilities, and antibacterial and antioxidant activities, as well as immune regulatory properties. These attributes collectively support accelerated skin wound healing, particularly in cases complicated by bacterial infections. This research charts an approach to engineer hydrogel-based wound dressings through on-site hydrogel formation, thus advancing the treatment of wounds afflicted with complex infections.

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Ferrocene-Based Antioxidant Self-Healing Hydrogel via the Biginelli Reaction for Wound Healing

Cited by 4 publications

References 59 publications

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

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

Electron-reservoir applications of ferrocenes and other late transition-metal sandwich complexes: Flow batteries, sensing, catalysis, and biomedicine

A Dry Patch with In Situ Solid-to-Gel Transformation for All-in-One Skin Wound Care

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