Eco-friendly development of intrinsically antibacterial and mechanically robust self-healing hydrogels using alginate and oval proteins: Advancing periodontitis treatment

A novel approach for fabricating self-healing, intrinsically antibacterial hydrogels for potential periodontitis treatment is presented in this study. Self-healable hydrogels are promising substitutes for brittle hydrogels due to their excellent durability and stability. Drug-loaded regenerative hydrogels have shown good outcomes but face challenges, specifically in managing the development of drug resistance. The hydrogels were prepared by incorporating bioactive oval proteins and hydroxyapatite into polyvinyl alcohol using a simple synthesis method with eco-friendly crosslinkers (oxidized alginate, borax, and divalent metal salts). The synthesized hydrogels exhibited excellent self-healing properties, mechanical robustness, and malleability. Furthermore, characterization techniques confirmed successful crosslinking and interactions within the network. The hydrogels demonstrated significant water absorption, tunable degradation, and potent antibacterial activity against E. coli, S. aureus and P. gingivalis. In vitro studies confirmed good cytocompatibility with epithelial and fibroblasts cells. Wound healing assays further supported the potential of these hydrogels for tissue regeneration applications. This approach offers a promising alternative to traditional drug-loaded hydrogels, overcoming limitations of cost and potential for resistance.