Characterization of the fretting corrosion behavior, surface and debris from head-taper interface of two different modular hip prostheses

Modular hip prostheses are flexible to match anatomical variations and to optimize mechanical and tribological properties of each part by using different materials. However, micromotions associated with the modular components can lead to fretting corrosion and, consequently, to release of debris whi...

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Bibliographic Details
Published in:Journal of the mechanical behavior of biomedical materials 2016-09, Vol.62, p.71-82
Main Authors: dos Santos, Claudio T., Barbosa, Cassio, Monteiro, Maurício J., Abud, Ibrahim C., Caminha, Ieda M.V., Roesler, Carlos R.M.
Format: Article
Language:English
Subjects:
Corrosion
Fretting corrosion
Head-taper
Hip implant
Hip Prosthesis
Humans
In vitro evaluation
Modular prosthesis
Prosthesis Design
Prosthesis Failure
Stainless Steel
Surface Properties
Titanium
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Summary:Modular hip prostheses are flexible to match anatomical variations and to optimize mechanical and tribological properties of each part by using different materials. However, micromotions associated with the modular components can lead to fretting corrosion and, consequently, to release of debris which can cause adverse local tissue reactions in human body. In the present study, the surface damage and residues released during in vitro fretting corrosion tests were characterized by stereomicroscope, SEM and EDS. Two models of modular hip prosthesis were studied: Model SS/Ti Cementless whose stem was made of ASTM F136 Ti-6Al-4V alloy and whose metallic head was made of ASTM F138 austenitic stainless steel, and Model SS/SS Cemented with both components made of ASTM F138 stainless steel. The fretting corrosion tests were evaluated according to the criteria of ASTM F1875 standard. Micromotions during the test caused mechanical wear and material loss in the head-taper interface, resulting in fretting-corrosion. Model SS/SS showed higher grade of corrosion. Different morphologies of debris predominated in each model studied. Small and agglomerated particles were observed in the Model SS/Ti and irregular particles in the Model SS/SS. After 10 million cycles, the Model SS/Ti was more resistant to fretting corrosion than the Model SS/SS. •Localized corrosion in the head–taper interface was observed in the prostheses.•The stainless steel prostheses were more susceptible to corrosive attack.•Fretting corrosion did not create cracks in the regions of the prostheses.•Particles: agglomerated/irregular in the SS/Ti and smooth/irregular in the SS/SS.•Particles with presence of elements from the implants, such as Fe, Ni, Cr, Al, V.
ISSN:1751-6161
1878-0180
DOI:10.1016/j.jmbbm.2016.04.036