Exudate‐Induced Gelatinizable Nanofiber Membrane with High Exudate Absorption and Super Bactericidal Capacity for Bacteria‐Infected Wound Management

Wang, Wenjie; Yu, Qiao; Shao, Zijian; Guo, Yuxuan; Wang, Yilin; Yang, Ye; Zhao, Weifeng; Zhao, Changsheng

doi:10.1002/adhm.202303293

Adv Healthcare Materials

2023

DOI: 10.1002/adhm.202303293

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Exudate‐Induced Gelatinizable Nanofiber Membrane with High Exudate Absorption and Super Bactericidal Capacity for Bacteria‐Infected Wound Management

Wenjie Wang,

Qiao Yu,

Zijian Shao

et al.

Abstract: Invasion of bacteria and continuous oozing of exudate are significant causes of interference with the healing of infected wounds. Therefore, an exudate‐induced gelatinizable and near‐infrared (NIR)‐responsive nanofiber membrane composed of polyvinyl alcohol (PVA), carboxymethyl chitosan (CMC), and Fe‐doped phosphomolybdic acid (Fe‐PMA) with exceptional exudate absorption capacity and potent bactericidal efficacy is developed and denoted as the PVA‐FP‐CMC membrane. After absorbing exudate, the fiber membrane ca… Show more

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Cited by 7 publications

References 75 publications

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Janus Amphipathic Dressing With Liquid Self‐Pumping and Blood‐Clot Anti‐Adhesion for Satisfactory Hemostasis

Yu,

Wang,

Deng

et al. 2024

Adv Healthcare Materials

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Ideal hemostatic materials for the emergency rescue of war and traffic accident sufferers are essential to significantly control hemorrhage, reduce patient discomfort and improve the survival ratio. However, most hemostats absorb blood quickly in contact with the wound and then adhere to blood clots, resulting in breaking scabs and tearing the wound when the materials are removed. Herein, an effective Janus amphipathic hemostatic dressing (Fiber@Gel/Ca2+/KL) with a fiber layer (polylactic acid/carboxymethyl chitosan) and a hydrogel layer (polyvinyl alcohol, carboxymethyl chitosan, Ca2+, and kaolin) is reported. Such a composite dressing unidirectionally drains the excessive serum from its hydrophobic side (fiber layer) to its hydrophilic side (hydrogel layer), so‐called self‐pumping, thereby further concentrating coagulated factors (including RBCs and platelets). Furthermore, Ca2+ diffused from the hydrogel layer subsequently activates platelets and coagulation cascade. Besides, the Fiber@Gel/Ca2+/KL exhibits specific blood‐clot anti‐adhesion property on the fiber layer, making the dressing easily and safely peel off from the wound. It is believed that this novel hemostatic dressing with good hemostatic performance, easy clots removal, and excellent biocompatibility is expected to be used as a safe and efficient hemostatic dressing in clinical applications.This article is protected by copyright. All rights reserved

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Janus Amphipathic Dressing With Liquid Self‐Pumping and Blood‐Clot Anti‐Adhesion for Satisfactory Hemostasis

Yu,

Wang,

Deng

et al. 2024

Adv Healthcare Materials

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Multifunctional Polysaccharide Self‐Healing Wound Dressing: NIR‐Responsive Carboxymethyl Chitosan / Quercetin Hydrogel

Xu,

Su,

Huang

et al. 2024

Adv Healthcare Materials

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As the misuse of antibiotics increases bacterial resistance, the treatment of infected wounds caused by bacteria encounters significant challenges. Conventional antimicrobial dressings often fall short in their ability to inhibit bacterial infections while simultaneously promoting wound healing. To address this issue, a polysaccharide self‐healing hydrogel (CPP@PDA/Que3) wound dressing is successfully developed by incorporating quercetin and polydopamine nanoparticles into a carboxymethyl chitosan matrix. The dressing can be easily injected locally to create a protective barrier over the wound, effectively stopping bleeding and rapidly inhibiting inflammation. Furthermore, the CPP@PDA/Que3 hydrogel exhibits remarkable antioxidant and antibacterial properties, stemming from the combination of quercetin and near‐infrared (NIR) photothermal therapy. It demonstrates the ability to eliminate 99.52% of Staphylococcus aureus and 99.39% of Escherichia coli in in vitro antibacterial experiments. Additionally, the in vivo wound healing experiment shows a healing rate of ≈97%. The experimental results indicate that under NIR laser (808 nm) irradiation, the polysaccharide‐based hydrogel dressing significantly inhibits bacterial growth, reduces oxidative stress, expedites angiogenesis, and thereby accelerates the transition from inflammation to wound healing. In summary, the CPP@PDA/Que3 hydrogel exhibits significant potential as a wound dressing, providing a novel approach for clinically advancing the treatment of bacterial wounds.

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Versatile poly (deep eutectic solvents) electroactive chitosan eutectogel for infected wound healing and monitoring administration

Liu,

Zhan,

Liu

et al. 2025

Carbohydrate Polymers

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Exudate‐Induced Gelatinizable Nanofiber Membrane with High Exudate Absorption and Super Bactericidal Capacity for Bacteria‐Infected Wound Management

Cited by 7 publications

References 75 publications

Janus Amphipathic Dressing With Liquid Self‐Pumping and Blood‐Clot Anti‐Adhesion for Satisfactory Hemostasis

Janus Amphipathic Dressing With Liquid Self‐Pumping and Blood‐Clot Anti‐Adhesion for Satisfactory Hemostasis

Multifunctional Polysaccharide Self‐Healing Wound Dressing: NIR‐Responsive Carboxymethyl Chitosan / Quercetin Hydrogel

Versatile poly (deep eutectic solvents) electroactive chitosan eutectogel for infected wound healing and monitoring administration

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