Characterization and fabrication of zinc oxide nanoparticles by gum Acacia modesta through green chemistry and impregnation on surgical sutures to boost up the wound healing process.

In the present research, we developed zinc oxide nanoparticles (ZnO-NPs) based surgical sutures for the accelerated wound healing process. Color change from transparent to dark, surface plasmon response with a peak at 270 nm and infra-red spectra with ZnO-bond stretches at 489.6831 cm confirmed the synthesis of NPs. Rod shape ZnO-NPs with an ideal size of 70 ± 03 nm were noted with uniform distribution. X-rays diffraction patterns revealed sharp peaks which was a clear indication of the crystalline nature of NPs. The energy dispersive X-ray analysis of synthesized nanoparticles reveals that the expected stoichiometric mass percent of zinc and oxygen is 77.55% and 22.45% respectively. Disc-diffusion antibacterial assay revealed that synthesized NPs hold good anti-bacterial potential against the Escherichia coli and Methicillin-resistant staphylococcus aureus (MRSA). Gum based ZnO-NPs coated suture revealed good tensile strength which is considered as a necessary parameter for suturing purposes. The designed suture showed excellent wound healing potential in Sprague-dawley rats through the incision wound model. Overall, in rats, rapid rate of epithelialization, wound contraction, mild inflammation and absence of any infection on the wounded site were recorded. Additionally, histopathology showed enhanced collagen fibers, fibroblast cells, lower inflammatory cells and rapid angiogenesis at healed tissues as compared to standard surgical treatment. Conclusively, the improved wound healing responses of the AM-ZnO-NPs were obtained due to the higher antibacterial activity of NPs.