Osteoblastic Cell Behavior on Nanostructured Metal Implants

Abstract

Surface modifications at the nanometric scale may promote protein adsorption, cell adhesion and thus favor the osseointegration of metal implants. The behavior of osteoblastic cells was studied on mirror-polished (Smooth-SS) and nanostructured (Nano-SS) stainless steel surfaces. The nanostructuration was obtained by anodization. The surfaces were characterized by scanning electron, atomic force microscopy (AFM) and X-ray photoelectron specytoscopy. Osteoblastic cells were cultured on these surfaces. AFM showed a regular array of pores on the Nano-SS. Osteoblastic cells spread more rapidly on Nano-SS surfaces than on Smooth-SS surfaces. Cell viability was similar on Smooth-SS and Nano-SS. Alkaline phosphatase activity increased with culture time whatever the substrate but was better enhanced at 21 days on the Nano-SS than on the Smooth-SS. This study shows that the nanostructuration of metal implants may improve the adhesion and differentiation of osteoblastic cells.