Brazilian Archives of Biology and Technology (Nov 2021)

Hydroxyapatite Synthesis and Covering of Titanium Surfaces by Dip-Coating Method

  • Luiz Alexandre Chisini,
  • Gian Francesco dos Reis Paganotto,
  • Rodrigo Guergolette,
  • Marcus Cristian Muniz Conde,
  • Jose Carlos Bernedo Alcázar,
  • Rodrigo Varella de Carvalho,
  • Evandro Piva,
  • Neftali Lenin Villarreal Carreño

DOI
https://doi.org/10.1590/1678-4324-2021200344
Journal volume & issue
Vol. 64

Abstract

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Abstract This study developed and characterized a method for controlled deposition of thin films of hydroxyapatite on titanium surfaces. Thirty-three titanium cylinders were randomly divided: negative control/polished (A), acid etched (B) and coated by hydroxyapatite (C). Acid etch was performed in an aqueous solution of nitric acid. The cylinders were subjected to coating by a thin film of hydroxyapatite with dip-coating method. These cylinders were submitted to a pre-heat treatment 450°C/10 minutes and 800°C/2 hours. Scanning electron microscopy analysis demonstrated a homogeneous and smooth surface (A), an irregular and porous surface (B) and a crystalline deposition (C). The X-ray energy dispersive analysis showed characteristic elements of hydroxyapatite (C). Analysis by X-ray diffraction showed the presence of characteristic peaks of hydroxyapatite, corresponding to the structural composition of hydroxyapatite. Cell viability (MTT-assay in NIH-3T3-Cells) test demonstrated no differences between the groups. Titanium surfaces coated with a hydroxyapatite film by the dip-coating method suggest adequate control of deposition of thin films of hydroxyapatite and similar cell viability using mouse fibroblasts.

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