Sustainable Wound Healing Using Riboflavin-Enhanced Nanocomposite Hydrogels
Summary: This study presents a riboflavin-enhanced nanocomposite hydrogel designed to promote sustainable wound healing through multifunctional mechanisms. The hydrogel integrates oxygen delivery, antibacterial effects, and biocompatibility to improve the healing process. Laboratory and animal studies demonstrated that the material enhances wound closure by reducing infection, relieving hypoxia, and promoting cellular activity.
Key Highlights:
- Hydrogel incorporates riboflavin to generate oxygen-reactive species for antimicrobial action and tissue repair.
- Supports oxygen diffusion and reduces hypoxic stress in damaged tissue.
- In vitro and in vivo results show improved cell compatibility and faster healing.
- Combines infection control, oxygenation, and tissue regeneration in one wound care platform.
Keywords: nanocomposite hydrogels, riboflavin, wound healing, oxygen delivery, antimicrobial therapy