The aim of this study is to investigate the treatment of burn wounds and bacterial infections, specifically focusing on silver(I) N-heterocyclic carbene (Ag-NHC) loaded into cubosomes. Ag-NHC is an organometallic complex of silver (Ag) and can be considered an active pharmaceutical ingredient for the topical treatment of burns. A novel nanoparticle system, cubosome dispersions, was formulated using high pressure homogenization methods with different concentrations of lipid phase glyceryl monooleate (GMO), surfactants such as poloxamer 407 (F-127), and polyvinyl alcohol (PVA). The optimized formulation (U6) was characterized by in vitro drug release profile (90.54 ± 1.17 %), particle size (126.7 ± 0.98 nm), zeta potential (−21.6 ± 6.83 mV), entrapment efficiency (89.30 ± 1.46 %), and morphology as observed by transmission electron microscopy (TEM). The U6 formulation was incorporated into a hydrogel containing Carbopol 940 to form a cubosomal hydrogel (cubogel). The cubogel was characterized by the in vitro release of Ag-NHC (92 %), entrapment efficiency (>90 %), pH (5.3), viscosity (1.2 cP), spreadability, and TEM. From the in vitro drug release pattern, it was concluded that the U6 formulation showed slow and sustained drug release over 24 h, and demonstrated superior burn healing compared to marketed products. The in vivo wound healing study revealed that the cubogel demonstrated a superior burn healing rate compared to commercially available products (Quench® and Clotrimazole®). The in vivo histopathological results showed that the prepared cubogel was effective in treating second-degree burns, with no side effects or skin irritation, compared to commercial products. Additionally, Ag-NHC-loaded cubogel facilitated sustained release for treating burn wounds without any bacterial infections. The current findings provide a strong basis for the initiating phase 0 clinal trials, highlighting significant potential for the further research to benefit the pharmaceutical industry.
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