A new chemical etching process to improve endosseous implant osseointegration: In vitro evaluation on human osteoblast-like cells

Carmen Giordano, E. Sandrini, V. Busini, R. Chiesa, G. Fumagalli, G. Giavaresi, M. Fini, R. Giardino, A. Cigada

Research output: Contribution to journalArticle

Abstract

The development of novel mechanical and chemical surface modification treatments to improve the osteointegration properties of osseointegrated dental implants is nowadays a topic of great applicative interest. The aim of the present study was to analyse the role of surface topography and chemistry of four different surface treatments on titanium by an in vitro human osteosarcoma immortalised cell line model (MG63). The surface treatments considered were (a) machined titanium, (b) chemical etched on machined titanium, (c) sandblasted titanium and (d) chemical etching on sandblasted titanium. Chemical and physical surface properties were investigated by Scanning Electron Microscopy, Thin Film-X ray Diffraction and by Laser Profilometry. The in vitro biological response was characterised using the MG63 cell line by elution cytotoxicity tests, cell morphology, adhesion, proliferation activity, alkaline phosphatase activity and total DNA content in order to show a relationship between osteoblast response and surface features. Chemical and physical characterisation showed that the considered treatments differently modify the surface morphology in the micro and sub-micrometric scale. Although some differences in alkaline phosphatase activity were observed in the biological characterisation, depending on the specific material's surface finishing, the results showed that cells were well responsive on all the tested materials and grew and differentiated with similar proliferation rate.

Original languageEnglish
Pages (from-to)772-780
Number of pages9
JournalInternational Journal of Artificial Organs
Volume29
Issue number8
Publication statusPublished - Aug 2006

Keywords

  • Chemical etching
  • In vitro cellular response
  • Sandblasting
  • Titanium

ASJC Scopus subject areas

  • Biophysics

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