Charles Explorer logo
🇬🇧

Biological and physical properties of pulsed-laser-deposited zirconia/hydroxyapatite on titanium: In vitro study

Publication at Second Faculty of Medicine |
2007

Abstract

Coating dental implants with hydroxyapatite (HA) may give certain advantages such as active encouragement of new bone growth, a lower rejection rate, and an improved long-term prosthesis fixation. This study examined the mechanical and biological properties of titanium alloy implant cores with an interlayer of zirconia and a coating of HA created using pulsed Laser deposition (PLD).

The thickness of the zirconia layer was 50-100 nm, and the HA layer was similar to 600 nm. The crystallinity, morphology, wettability, and Ca/P ratio of the HA layer were investigated by electron microscopy, X-ray diffraction, goniometric measurement of contact angle, and wavelength dispersive X-ray analysis.

The physical tests indicated adequate mechanical properties and a satisfactory adhesion to a titanium core modified with zirconia and HA. Cell proliferation and metabolic activity of human embryonal lung fibroblasts were determined using counting of harvested cells and providing an MTT assay. it was demonstrated that none of the samples were cytotoxic and their surfaces promoted cell colonization.

PLD was found to be a promising method of applying coatings to a metal core for dental implants, and the in vitro biological tests suggest that the crystalline HA coating can improve the biological properties of titanium covered with zirconia.