Hyaluronic acid-methacrylic anhydride/polyhexamethylene biguanide hybrid hydrogel with antibacterial and proangiogenic functions for diabetic wound repair

• Published in: Chinese chemical letters Vol. 33; no. 12; pp. 5030 - 5034
• Main Authors: Li, Yike, Zheng, Huiyu, Liang, Yaxian, Xuan, Ming, Liu, Guiting, Xie, Huixu
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.12.2022; State Key Laboratory of Oral Diseases,National Clinical Research Center for Oral Diseases,West China Hospital of Stomatology,State Key Laboratory of Polymer Materials Engineering,Sichuan University,Chengdu 610041,China
• Subjects: Angiogenesis; Antibacterial; Diabetic wounds; Hydrogel; Diabetic wounds; Angiogenesis; Hydrogel; Antibacterial
• ISSN: 1001-8417; 1878-5964
• DOI: 10.1016/j.cclet.2022.03.116

Diabetic wounds lead to a decrease in quality of life and an increase in mortality. Current treatment strategies include preventing bacterial adhesion while improving microcirculation. As a new type of wound dressing that imitates natural skin, hydrogel has gradually emerged with its excellent properties. However, existing hydrogels rarely achieve satisfactory results in promoting wound repair and antibacterial simultaneously. In this case, we prepared methacrylic anhydride chemically modified hyaluronic acid as a hydrogel matrix, added polyhexamethylene biguanide as an antibacterial component, and loaded sodium alginate/salidroside composite microspheres which could sustainably release salidroside and thus promote angiogenesis. Hybrid hydrogel (HAMA/PHMB-Ms) was synthesized via photocrosslinking, and its chemical structure, particle size distribution and microstructure were characterized. The satisfactory antibacterial properties of the HAMA/PHMB(15%)-Ms hydrogel were studied in vitro, and its antibacterial rates against E. coli and S. aureus were 97.85% and 98.56%, respectively. In addition, after demonstrating its good biocompatibility, we verified that the HAMA/PHMB-Ms hydrogel has increased granulation tissue formation, more collagen deposition, more subcutaneous capillary formation, and better wound healing than blank control, HAMA and HAMA/PHMB hydrogel on the back wound model of diabetic mice. The results confirmed that HAMA/PHMB-Ms hydrogel was a promising material for the treatment of the diabetic wounds. [Display omitted]