Gold doped Wollastonite hybrid nanocomposites as a candidate for bone regeneration/healing applications: Biocompatibility and antimicrobial efficacy

Abstract

This work investigates the bioactivity of pure Wollastonite and gold-doped Wollastonite nanohybrids synthesized via a wet chemical technique. Doping with gold nanoparticles at different ratios for Wollastonite, where a dramatic decrease in the respective average particle sizes at the lowest doping ratio of 1.25 wt./v%, then the particle size raised gradually with an increase in the content of gold nanoparticles. In addition, a significant increase in the calculated surface area and the cumulative pore volume upon incorporating gold nanoparticles with the lowest doping ratio of 1.25 wt./v% is associated with a slight decrease in the average pore size. Then, a gradual decrease in the calculated surface area and cumulative pore volume with the increase of doping ratio with gold nanoparticles is associated with an increase in average pore size. The results revealed that after two days of incubation for treated MG-63 cells, the W/Au 5 wt./v% showed the significantly highest alkaline phosphatase (ALP) activity among all other concentrations and the control cells. The ALP activity exceeded four mU/mL. After four days of incubation, the ALP activity in all doping ratios was significantly higher than the control cells, with no significant difference among other groups, but lower than ALP levels after two days of incubation. Also, pure Wollastonite and gold-doped Wollastonite nanohybrids, especially the lowest doping ratio of 1.25 wt./v%, have remarkable efficacy in combating E. coli (Gram-negative), S. aureus (Gram-positive) and Candida albicans. In vitro studies showed that pure Wollastonite and gold-doped Wollastonite nanohybrids had minimal cytotoxic effects on osteosarcoma MG-63 cells, while they showed remarkable cell proliferation even at low concentrations. Based on the in-vitro ALP, bioactivity and biocompatibility results, the content of ALP can directly reflect the activity or function of osteoblasts and is positively correlated with the mineralization ability of cells, which shows that pure and gold-doped Wollastonite nanohybrids were suitable candidates for bone regeneration/healing applications.