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Self‐Pumping Janus Hydrogel with Aligned Channels for Accelerating Diabetic Wound Healing

Wuyi Xiao, Xi Liu, Wenbo Wang, Xiaobin Zhang, Yuzhe Wang, Jinze Lan, Bao‐Shi Fan, Lianxin Shi, Xizi Wan, Shutao Wang

2022Macromolecular Rapid Communications28 citationsDOI

Abstract

Excessive exudate secreted from diabetic wounds often results in skin overhydration, severe infections, and secondary damage upon dressing changes. However, conventional wound dressings are difficult to synchronously realize the non-maceration of wound sites and rapid exudate transport due to their random porous structure. Herein, a self-pumping Janus hydrogel with aligned channels (JHA) composed of hydrophilic poly (ethylene glycol) diacrylate (PEGDA) hydrogel layer and hydrophobic polyurethane (PU)/graphene oxide (GO)/polytetrafluoroethylene (PTFE) layer is designed to rapidly export exudate and accelerate diabetic wound healing. In the design, the ice-templating process endows the hydrophilic hydrogel layer with superior liquid transport ability and mechanical strength due to the formation of aligned channel structure. The hydrophobic layer with controlled thickness functions as an effective barrier to prevent exudate from wetting the skin surface. Experiments in diabetic rat model show that JHA can significantly promote re-epithelialization and collagen deposition, shorten the inflammation phase, and accelerate wound healing. This unique JHA dressing may have great potential for real-life usage in clinical patients.

Topics & Concepts

ExudateMaterials scienceWettingWound healingSelf-healingLayer (electronics)Biomedical engineeringChemical engineeringNanotechnologyComposite materialSurgeryMedicineAlternative medicineEngineeringPathologyWound Healing and TreatmentsSurgical Sutures and AdhesivesPressure Ulcer Prevention and Management
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