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Metal-ion-controlled hydrogel dressing with enhanced adhesive and antibacterial properties for accelerated wound healing

Zihao Shen, Ningyi Ma, Juan Xu, Ting Wang

2024Materials Today Bio18 citationsDOIOpen Access PDF

Abstract

In order to improve the wound repair environment, this research has successfully developed a new multifunctional hydrogel dressing, which has strong adaptability and can accelerate wound healing. Pioneering the development of metal-ion-controlled hydrogel dressings, this research integrates dopamine and imidazole double crosslinked networks with metal-ion coordination. The resulting hydrogel dressing exhibits a notable antibacterial effect and exceptional mechanical properties, withstanding pressures of up to 12 kPa, tensions of 25 kPa, and maintaining skin adhesion at 6 kPa. Furthermore, the dressing can self-heal within only 7-8 s post-injection. Impressively, the hydrogel achieves complete biodegradation within a short timeframe (37 h). Notably, the use of various metal ions facilitates painless peeling during the degradation period, perfectly aligning with the requirements of an ideal wound dressing. This study has made significant progress in the fields of trauma repair and materials, providing strong solutions for dealing with harsh post-traumatic environments.

Topics & Concepts

Wound dressingWound healingMaterials scienceAdhesiveSelf-healing hydrogelsBiomedical engineeringAdhesionNanotechnologyComposite materialSurgeryPolymer chemistryMedicineLayer (electronics)Wound Healing and TreatmentsSurgical Sutures and AdhesivesBurn Injury Management and Outcomes
Metal-ion-controlled hydrogel dressing with enhanced adhesive and antibacterial properties for accelerated wound healing | Litcius