In vitro apatite formation on chemically treated (P/M) Ti–13Nb–13Zr

Abstract Objectives Titanium alloys are considered the material of choice when used as endosteal part of implants. However, they are not able to bond directly to bone. The objective of this study was to suggest a chemical surface treatment for Ti–13Nb–13Zr to initiate the formation of hydroxy carbon...

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Published in:Dental materials 2008-01, Vol.24 (1), p.50-56
Main Authors: Müller, Frank A, Bottino, Marco C, Müller, Lenka, Henriques, Vinicius A.R, Lohbauer, Ulrich, Bressiani, Ana Helena A, Bressiani, José C
Format: Article
Language:English
Subjects:
Acid Etching, Dental - methods
Advanced Basic Science
Apatites - analysis
Bioactivity
Dental Alloys
Dentistry
Electron Probe Microanalysis
Hydrochloric Acid
Hydrofluoric Acid
Materials Testing
Metallurgy
Nitric Acid
Phosphoric Acids
Powder metallurgy
Powders
Saliva
Simulated body fluid
Sodium Hydroxide
Spectroscopy, Fourier Transform Infrared
Surface modification
Surface Properties
Titanium
Titanium alloys
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Summary:Abstract Objectives Titanium alloys are considered the material of choice when used as endosteal part of implants. However, they are not able to bond directly to bone. The objective of this study was to suggest a chemical surface treatment for Ti–13Nb–13Zr to initiate the formation of hydroxy carbonated apatite (HCA) during in vitro bioactivity tests in simulated body fluid (SBF). Methods Titanium, niobium, and zirconium hydride powders were blended, compacted and sintered. Sintered Ti–13Nb–13Zr samples were etched in HCl, H3 PO4 , and in a mixture of HF + HNO3 , respectively, and subsequently pretreated in NaOH. The influence of acid etching conditions on the microstructure of the Ti–13Nb–13Zr alloys as well as on the rate of HCA formation was evaluated using SEM-EDS, FTIR, and gravimetric analyses. Results Sintered Ti–13Nb–13Zr alloys consist of a Widmannstätten (α + β) microstructure. Exposure of chemically etched and NaOH activated samples to SBF for 1 week leads to the formation of a HCA layer on the surface of HCl as well as H3 PO4 treated samples. No HCA formation was found on HNO3 treated samples. After 2 weeks in SBF the mass increase, that can be correlated to the HCA formation rate, was the highest for HCl pretreated samples (2.4 mg/cm2 ) followed by H3 PO4 (0.8 mg/cm2 ) and HNO3 pretreated ones (0.2 mg/cm2 ). Significance Since the in vitro HCA formation from SBF is generally accepted as a typical feature for bioactive materials, it is supposed that HCl etching with subsequent NaOH treatment might enhance the in vivo bone-bonding ability of Ti–13Nb–13Zr.
ISSN:0109-5641
1879-0097
DOI:10.1016/j.dental.2007.02.005