Objectives: Nasal mucosa wound healing faces challenges such as acidic microenvironments and bacterial proliferation. Persistent mucosal defects predispose to complications such as nasal septal perforation. Conventional drug delivery systems suffer from nonspecific release and short-term efficacy. This study aimed to develop a pH-responsive liposome-hydrogel composite (HYD-Lip/DXMS@HG) to integrate pH-triggered dexamethasone (DXMS) delivery, antifouling properties, and mechanical support for refractory injuries. Methods: The composite combined acylhydrazone-modified liposomes with a hydrogel synthesized from hydroxyethylacrylamide (HEAA) and diethylacrylamide (DEAA). In vitro assays evaluated DXMS release kinetics, RPMI 2650 cell migration/proliferation, and antibacterial properties. In vivo rabbit nasal mucosal injury models assessed healing efficacy via histology analyses. RNA sequencing was performed to identify key signaling pathways. Results: HYD-Lip/DXMS@HG exhibited sustained DXMS release in acidic conditions, accelerating cell migration/proliferation in vitro. In rabbits, the composite reduced TNF-α expression and CD45+ leukocyte infiltration, while enhancing collagen alignment and epithelial thickness. RNA sequencing identified upregulated ECM receptor interaction, Hippo, TGF-β, and PI3K-Akt pathways, linked to collagen remodeling, anti-apoptosis, and angiogenesis. Conclusions: This multifunctional platform synergizes pH-triggered drug delivery, mechanical support, and antibacterial activity, offering a promising therapeutic strategy for refractory nasal mucosal injuries and postoperative recovery.
Keywords: acylhydrazone bond; antibacterial; dexamethasone; hydrogel; liposome; nasal mucosa; pH-responsive.