A Multifunctional Hydrogel Incorporating Luteolin-Encapsulated ROS-Responsive Nanoparticles and Stem Cells Promotes Bacterial-Infected Wound Healing

Background/Objectives: Wound healing represents a pervasive and urgent clinical challenge. Hard-to-heal chronic wounds are frequently complicated by infections, inflammatory responses, and oxidative stress. Currently, wound dressings are broadly categorized into dry and moist types, with moist wound dressings for chronic wounds accounting for approximately 70% of market revenue. Recently, adipose-derived stem cells (ADSCs), which possess self-renewal and multi-lineage differentiation capabilities, have emerged as a promising strategy for promoting tissue regeneration and wound repair. Methods: In this study, we developed a novel luteolin nanoparticle-ADSCs composite hydrogel (GelCA@LUT@ADSCs). This system was constructed by first encapsulating ADSCs within a chitosan/alginate hydrogel (GelCA), followed by coating the hydrogel with luteolin-loaded nanoparticles (LUT@NPs). Results: The sustained release of LUT@NPs from the hydrogel modulates the wound microenvironment, enhancing the pro-healing functions of ADSCs at the wound site. The GelCA hydrogel exhibited excellent biocompatibility. Both in vitro and in vivo results demonstrated that GelCA@LUT@ADSCs treatment effectively reduced inflammation, promoted angiogenesis and Collagen deposition, stimulated cell proliferation and migration, and polarized macrophages toward an anti-inflammatory, pro-healing M₂ phenotype, thereby accelerating wound healing. Conclusions: Overall, this innovative therapeutic approach provides a novel strategy for wound management through a synergistic division of labor between pharmaceutical agents and stem cells.

anti-inflammatory; antibacterial; antioxidant; multifunctional wound dressing; wound healing.