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Quantification of the Contact Area at the Head-Stem Taper Interface of Modular Hip Prostheses

Corrosion of modular taper junctions of hip implants may be associated with clinical failure. Taper design parameters, as well as the intraoperatively applied assembly forces, have been proposed to affect corrosion. Fretting corrosion is related to relative interface shear motion and fluid ingress,...

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Detalles Bibliográficos
Autores principales: Witt, Florian, Gührs, Julian, Morlock, Michael M., Bishop, Nicholas E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4539214/
https://www.ncbi.nlm.nih.gov/pubmed/26280914
http://dx.doi.org/10.1371/journal.pone.0135517
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author Witt, Florian
Gührs, Julian
Morlock, Michael M.
Bishop, Nicholas E.
author_facet Witt, Florian
Gührs, Julian
Morlock, Michael M.
Bishop, Nicholas E.
author_sort Witt, Florian
collection PubMed
description Corrosion of modular taper junctions of hip implants may be associated with clinical failure. Taper design parameters, as well as the intraoperatively applied assembly forces, have been proposed to affect corrosion. Fretting corrosion is related to relative interface shear motion and fluid ingress, which may vary with contact force and area. It was hypothesised in this study that assembly forces modify the extent and distribution of the surface contact area at the taper interface between a cobalt chrome head and titanium stem taper with a standard threaded surface profile. Local abrasion of a thin gold coating applied to the stem taper prior to assembly was used to determine the contact area after disassembly. Profilometry was then used to assess permanent deformation of the stem taper surface profile. With increasing assembly force (500 N, 2000 N, 4000 N and 8000 N) the number of stem taper surface profile ridges in contact with the head taper was found to increase (9.2±9.3%, 65.4±10.8%, 92.8±6.0% and 100%) and the overall taper area in contact was also found to increase (0.6±0.7%, 5.5±1.0%, 9.9±1.1% and 16.1±0.9%). Contact was inconsistently distributed over the length of the taper. An increase in plastic radial deformation of the surface ridges (-0.05±0.14 μm, 0.1±0.14 μm, 0.21±0.22 μm and 0.96±0.25 μm) was also observed with increasing assembly force. The limited contact of the taper surface ridges at lower assembly forces may influence corrosion rates, suggesting that the magnitude of the assembly force may affect clinical outcome. The method presented provides a simple and practical assessment of the contact area at the taper interface.
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spelling pubmed-45392142015-08-24 Quantification of the Contact Area at the Head-Stem Taper Interface of Modular Hip Prostheses Witt, Florian Gührs, Julian Morlock, Michael M. Bishop, Nicholas E. PLoS One Research Article Corrosion of modular taper junctions of hip implants may be associated with clinical failure. Taper design parameters, as well as the intraoperatively applied assembly forces, have been proposed to affect corrosion. Fretting corrosion is related to relative interface shear motion and fluid ingress, which may vary with contact force and area. It was hypothesised in this study that assembly forces modify the extent and distribution of the surface contact area at the taper interface between a cobalt chrome head and titanium stem taper with a standard threaded surface profile. Local abrasion of a thin gold coating applied to the stem taper prior to assembly was used to determine the contact area after disassembly. Profilometry was then used to assess permanent deformation of the stem taper surface profile. With increasing assembly force (500 N, 2000 N, 4000 N and 8000 N) the number of stem taper surface profile ridges in contact with the head taper was found to increase (9.2±9.3%, 65.4±10.8%, 92.8±6.0% and 100%) and the overall taper area in contact was also found to increase (0.6±0.7%, 5.5±1.0%, 9.9±1.1% and 16.1±0.9%). Contact was inconsistently distributed over the length of the taper. An increase in plastic radial deformation of the surface ridges (-0.05±0.14 μm, 0.1±0.14 μm, 0.21±0.22 μm and 0.96±0.25 μm) was also observed with increasing assembly force. The limited contact of the taper surface ridges at lower assembly forces may influence corrosion rates, suggesting that the magnitude of the assembly force may affect clinical outcome. The method presented provides a simple and practical assessment of the contact area at the taper interface. Public Library of Science 2015-08-17 /pmc/articles/PMC4539214/ /pubmed/26280914 http://dx.doi.org/10.1371/journal.pone.0135517 Text en © 2015 Witt et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Witt, Florian
Gührs, Julian
Morlock, Michael M.
Bishop, Nicholas E.
Quantification of the Contact Area at the Head-Stem Taper Interface of Modular Hip Prostheses
title Quantification of the Contact Area at the Head-Stem Taper Interface of Modular Hip Prostheses
title_full Quantification of the Contact Area at the Head-Stem Taper Interface of Modular Hip Prostheses
title_fullStr Quantification of the Contact Area at the Head-Stem Taper Interface of Modular Hip Prostheses
title_full_unstemmed Quantification of the Contact Area at the Head-Stem Taper Interface of Modular Hip Prostheses
title_short Quantification of the Contact Area at the Head-Stem Taper Interface of Modular Hip Prostheses
title_sort quantification of the contact area at the head-stem taper interface of modular hip prostheses
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4539214/
https://www.ncbi.nlm.nih.gov/pubmed/26280914
http://dx.doi.org/10.1371/journal.pone.0135517
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