Surface modification of implant materials and its effect on attachment and proliferation of bone cells

## Abstract Surface properties of implants are the keys for ensuring their long‐lasting anchorage to the tissue. This study aims to develop a novel implant surface microstructure with high biocompatibility and ability of guided tissue formation. By a photolithography method, gold (Au) grids (1 × 1

Biomaterials which combine optimum properties of strength and biocompatibility are desirable in improving the long-term performance of implantable medical devices. Our study is aimed at developing technology designed to alter the outer atomic layers of a material to give the desired compatibility wi

## Abstract The importance of surface topology and implant material composition on osseointegration in trabecular bone was investigated using three commercially used implant materials and surface‐texturing procedures which included blasting, high temperature acid etching, and hydroxyapatite (HA) co

## Abstract The purpose of this study was to evaluate the effect of different implant surface properties on the morphology, proliferation, neurotrophin secretion, and gene expression of Schwann cells. Four types of implant surfaces, including ground (smooth surface), sandblasted and acid‐etched (SL