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A Rapid Self‐Pumping Organohydrogel Dressing with Hydrophilic Fractal Microchannels to Promote Burn Wound Healing

Jinze Lan, Lianxin Shi, Wuyi Xiao, Xiaobin Zhang, Shutao Wang

2023Advanced Materials111 citationsDOI

Abstract

Burn wounds pose great challenges for conventional dressings because massive exudates oversecreted from swollen tissues and blisters seriously delay wound healing. Herein, a self-pumping organohydrogel dressing with hydrophilic fractal microchannels is reported that can rapidly drain excessive exudates with ≈30 times enhancement in efficiency compared with the pure hydrogel, and effectively promote burn wound healing. A creaming-assistant emulsion interfacial polymerization approach is proposed to create the hydrophilic fractal hydrogel microchannels in the self-pumping organohydrogel through a dynamic floating-colliding-coalescing process of organogel precursor droplets. In a murine burn wound model, the rapid self-pumping organohydrogel dressings can markedly reduce dermal cavity by ≈42.5%, accelerate blood vessel regeneration by ≈6.6 times, and hair follicle regeneration by ≈13.5 times, compared with the commercial dressing (Tegaderm). This study paves an avenue for designing high-performance functional burn wound dressings.

Topics & Concepts

Materials scienceSelf-healingBurn woundWound healingFractalComposite materialNanotechnologyBiomedical engineeringSurgeryEngineeringMedicineMathematical analysisPathologyMathematicsAlternative medicineWound Healing and TreatmentsElectrospun Nanofibers in Biomedical ApplicationsHydrogels: synthesis, properties, applications
A Rapid Self‐Pumping Organohydrogel Dressing with Hydrophilic Fractal Microchannels to Promote Burn Wound Healing | Litcius