Abstract
Functionalized metal oxide nanoparticles cross-linked collagen scaffolds are widely used in skin regenerative applications because of their enhanced physico-chemical and biocompatibility properties. From the safety clinical trials point of view, there are no reports that have compared the effects of functionalized metal oxide nanoparticles mediated collagen scaffolds for in-vivo skin regenerative applications. In this work, Triethoxysilane - Poly (amido amine) dendrimer generation 3 (TES-PAMAM -G3 or G3) functionalized spherical shape metal oxide nanoparticles (MO NPs: ZnO, TiO2, Fe3O4, CeO2, and SiO2, Size: 12 -25 nm) cross-linked collagen scaffolds were prepared by using a self-assembly method. Triple helical conformation, pore size, mechanical strength and in-vitro cell viability of MO-TES-PAMAM-G3- collagen scaffolds were studied through different methods. The in-vivo skin regenerative proficiency of MO-TES-PAMAM-G3- collagen scaffolds were analysed by implanting the scaffold on wounds in Wistar Albino rats. The results demonstrated that MO-TES-PAMAM-G3- collagen scaffold showed superior skin regeneration properties than other scaffolds. The skin regenerative efficiency of MO NPs followed order: ZnO> TiO2> CeO2> SiO2> Fe3O4 NPs. This result can be attributed to higher mechanical strength, cell –viability and better antibacterial activity of ZnO-TES-PAMAM-G3-collagen scaffold lead to accelerate the skin regenerative properties in comparison to other metal oxide based collagen scaffolds.