Title :
Antibacterial AgNPs/CaP biocomposites
Author :
Ivanova, A.A. ; Surmenev, R.A. ; Surmeneva, M.A. ; Mukhametkaliyev, T. ; Sharonova, A.A. ; Grubova, I.Yu. ; Loza, K. ; Chernousova, S. ; Prymak, O. ; Epple, M.
Author_Institution :
Dept. of Theor. & Exp. Phys. Centre of Technol., Nat. Res. Tomsk Polytech. Univ., Tomsk, Russia
Abstract :
The modification of implant surface is in the focus of many scientists worldwide. In this study, multifunctional biocomposite on the basis of calcium phosphate coating and silver nanoparticles has been fabricated through the use of nanofabrication techniques. Dense nanocrystalline HA film was deposited over AgNPs. The properties as well as the in vitro behavior of the developed biocomposites have been studied. The diffraction patterns of the biocomposites revealed the peaks of crystalline HA and silver (Ag). The release of Ag from the developed biocomposites was evaluated. The concentration of the released silver ions for 7 days of dissolution was 0.27±0.02 μg/mL and 0.54±0.02 μg/mL for phosphate and acetate buffers, respectively. In order to estimate the cytotoxicity of the samples the functional activity of osteoclasts, in particular, cell morphology, multinuclearity, actin ring and resorption pit on the substrates coated with HA and AgNPs-HA have been evaluated.
Keywords :
antibacterial activity; biomedical materials; bone; calcium compounds; dissolving; nanocomposites; nanofabrication; nanoparticles; silver; thin films; Ag-Ca10(PO6)6(OH)2; acetate buffer; actin ring; antibacterial biocomposites; calcium phosphate coating; cell morphology; cytotoxicity; dense nanocrystalline film; diffraction patterns; dissolution; implant surface modification; multifunctional biocomposite; multinuclearity; nanofabrication techniques; osteoclast functional activity; phosphate buffer; released silver ion concentration; resorption pit; silver nanoparticles; Antibacterial activity; Coatings; Implants; Silver; Substrates; Surface morphology; Surface treatment; RF magnetron sputtering; hydroxyapatite; multilayer structures; silver nanoparticles; thin films;
Conference_Titel :
Strategic Technology (IFOST), 2014 9th International Forum on
Conference_Location :
Cox´s Bazar
Print_ISBN :
978-1-4799-6060-6
DOI :
10.1109/IFOST.2014.6991166
