Photopolymerized multifunctional sodium alginate-based hydrogel for antibacterial and coagulation dressings

Trauma caused by tissue damage in clinical applications has posed a serious threat to public safety. Dressings with a single function cannot meet the needs of wound healing, but multifunctional dressings are difficult to achieve and obtain. To address this issue, this research designed a facile one-pot photo-crosslinking method to prepare multifunctional sodium alginate-based hydrogel dressings for effective wound healing. According to irregular wounds, sodium alginate-based hydrogel dressings can be quickly prepared anytime and anywhere. The structure and physicochemical properties of hydrogels are regulated by modulating the proportion of main components sodium alginate and acrylamide. The results showed the sodium alginate-based composite hydrogel as a candidate multifunctional dressing that exhibits excellent stretchability and compressibility, viscoelasticity, and suitable tissue-like adhesion. In vitro drug release and antibacterial experiments indicated that the hydrogel has effective antibacterial properties against S. aureus and P. aeruginosa. Furthermore, the haemostatic behaviour of the hydrogel was demonstrated using the coagulation activation test, whole blood-clotting test, and blood cell and platelet adhesion experiments. All these results demonstrated that the sodium alginate-based hydrogel had high application potential as a multifunctional medical dressing for wound healing. Multifunctional sodium alginate-based hydrogel dressing that can be easily and quickly prepared for irregular wounds to combat bacterial infection and coagulation. [Display omitted] •The sodium alginate-based hydrogels were designed by a simple one-pot UV photopolymerization.•The sodium alginate-based hydrogels possessed excellent stretchability and compressibility.•The hydrogels exhibited good tissue adhesion.•The hydrogels had good antibacterial effect on S. aureus and P. aeruginosa.•The hydrogels showed good haemolytic and coagulative properties.