Affiliation:
1. Institute of Biomaterials The First Affiliated Hospital of Ningbo University No.59 Liuting Street, Haishu District Ningbo 315010 China
2. Department of Public Health Wuhan eighth hospital 1307 Zhongshan Avenue, Jiangan District Wuhan 430010 China
3. Institute of Bioscaffold Transplantation and Immunology Wenzhou Medical University North Center Road Ouhai District Wenzhou 325035 China
4. Department of Orthopaedic Trauma and Microsurgery Zhongnan Hospital of Wuhan University Wuhan 430071 China
Abstract
AbstractThe skin barrier is essential to prevent pathogenic invasion. When injury occurs, multiple biological pathways are promptly activated and wound repair processes are triggered. The effective healing of wounds is essential for survival, and dysfunction could result from aberrant wound repair. Preparation of many hydrogels, which involve the addition of growth/cell factors or mimic extracellular matrix (ECM) components, has not resulted in significant advances in tissue recovery. ECM contains a large number of biologically active molecules that activate a variety of cellular transduction pathways, which are essential for wound repair. Here, this work prepares hyaluronic acid‐dopamine‐thiourea (HA‐DA‐NCSN) hydrogels exhibiting ultrafast gelation in situ, following the methods of Xu et al., and subsequently designs a hydrogel containing ECM particles. In addition, the loaded ECM material, specifically decellularized ECM material, not only enhances the strength of the hydrogel network, but also delivers bioactive substances that make it a suitable platform for skin wound repair. The ECM hydrogel has great potential as an efficient bioactive wound dressing. This research suggests that this strategy is likely to improve skin wound closure in rat skin wound models.
Funder
National Natural Science Foundation of China
National Key Research and Development Program of China