Biomechanical behaviour of a French femoral component with thin cement mantle: The ‘French paradox’ may not be a paradox after all

OBJECTIVE: Cement thickness of at least 2 mm is generally associated with more favorable results for the femoral component in cemented hip arthroplasty. However, French-designed stems have shown favorable outcomes even with thin cement mantle. The biomechanical behaviors of a French stem, Charnley-M...

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Autores principales: Numata, Y., Kaneuji, A., Kerboull, L., Takahashi, E., Ichiseki, T., Fukui, K., Tsujioka, J., Kawahara, N.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2018
Materias:
Biomechanics
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6076357/
https://www.ncbi.nlm.nih.gov/pubmed/30123498
http://dx.doi.org/10.1302/2046-3758.77.BJR-2017-0288.R2
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author Numata, Y.
Kaneuji, A.
Kerboull, L.
Takahashi, E.
Ichiseki, T.
Fukui, K.
Tsujioka, J.
Kawahara, N.
author_facet Numata, Y.
Kaneuji, A.
Kerboull, L.
Takahashi, E.
Ichiseki, T.
Fukui, K.
Tsujioka, J.
Kawahara, N.
author_sort Numata, Y.
collection PubMed
description OBJECTIVE: Cement thickness of at least 2 mm is generally associated with more favorable results for the femoral component in cemented hip arthroplasty. However, French-designed stems have shown favorable outcomes even with thin cement mantle. The biomechanical behaviors of a French stem, Charnley-Marcel-Kerboull (CMK) and cement were researched in this study. METHODS: Six polished CMK stems were implanted into a composite femur, and one million times dynamic loading tests were performed. Stem subsidence and the compressive force at the bone-cement interface were measured. Tantalum ball (ball) migration in the cement was analyzed by micro CT RESULTS: The cement thickness of 95 % of the proximal and middle region was less than 2.5 mm. A small amount of stem subsidence was observed even with collar contact. The greatest compressive force was observed at the proximal medial region and significant positive correlation was observed between stem subsidence and compressive force. 9 of 11 balls in the medial region moved to the horizontal direction more than that of the perpendicular direction. The amount of ball movement distance in the perpendicular direction was 59 to 83% of the stem subsidence, which was thought to be slip in the cement of the stem. No cement defect and no cement breakage were seen. CONCLUSION: Thin cement in CMK stems produced effective hoop stress without excessive stem and cement subsidence. Polished CMK stem may work like force-closed fixation in short-term experiment. Cite this article: Y. Numata, A. Kaneuji, L. Kerboull, E. Takahashi, T. Ichiseki, K. Fukui, J. Tsujioka, N. Kawahara. Biomechanical behaviour of a French femoral component with thin cement mantle: The ‘French paradox’ may not be a paradox after all. Bone Joint Res 2018;7:485–493. DOI: 10.1302/2046-3758.77.BJR-2017-0288.R2.
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spelling pubmed-60763572018-08-17 Biomechanical behaviour of a French femoral component with thin cement mantle: The ‘French paradox’ may not be a paradox after all Numata, Y. Kaneuji, A. Kerboull, L. Takahashi, E. Ichiseki, T. Fukui, K. Tsujioka, J. Kawahara, N. Bone Joint Res Biomechanics OBJECTIVE: Cement thickness of at least 2 mm is generally associated with more favorable results for the femoral component in cemented hip arthroplasty. However, French-designed stems have shown favorable outcomes even with thin cement mantle. The biomechanical behaviors of a French stem, Charnley-Marcel-Kerboull (CMK) and cement were researched in this study. METHODS: Six polished CMK stems were implanted into a composite femur, and one million times dynamic loading tests were performed. Stem subsidence and the compressive force at the bone-cement interface were measured. Tantalum ball (ball) migration in the cement was analyzed by micro CT RESULTS: The cement thickness of 95 % of the proximal and middle region was less than 2.5 mm. A small amount of stem subsidence was observed even with collar contact. The greatest compressive force was observed at the proximal medial region and significant positive correlation was observed between stem subsidence and compressive force. 9 of 11 balls in the medial region moved to the horizontal direction more than that of the perpendicular direction. The amount of ball movement distance in the perpendicular direction was 59 to 83% of the stem subsidence, which was thought to be slip in the cement of the stem. No cement defect and no cement breakage were seen. CONCLUSION: Thin cement in CMK stems produced effective hoop stress without excessive stem and cement subsidence. Polished CMK stem may work like force-closed fixation in short-term experiment. Cite this article: Y. Numata, A. Kaneuji, L. Kerboull, E. Takahashi, T. Ichiseki, K. Fukui, J. Tsujioka, N. Kawahara. Biomechanical behaviour of a French femoral component with thin cement mantle: The ‘French paradox’ may not be a paradox after all. Bone Joint Res 2018;7:485–493. DOI: 10.1302/2046-3758.77.BJR-2017-0288.R2. 2018-08-04 /pmc/articles/PMC6076357/ /pubmed/30123498 http://dx.doi.org/10.1302/2046-3758.77.BJR-2017-0288.R2 Text en © 2018 Author(s) et al. This is an open-access article distributed under the terms of the Creative Commons Attributions licence (CC-BY-NC), which permits unrestricted use, distribution, and reproduction in any medium, but not for commercial gain, provided the original author and source are credited.
spellingShingle Biomechanics
Numata, Y.
Kaneuji, A.
Kerboull, L.
Takahashi, E.
Ichiseki, T.
Fukui, K.
Tsujioka, J.
Kawahara, N.
Biomechanical behaviour of a French femoral component with thin cement mantle: The ‘French paradox’ may not be a paradox after all
title Biomechanical behaviour of a French femoral component with thin cement mantle: The ‘French paradox’ may not be a paradox after all
title_full Biomechanical behaviour of a French femoral component with thin cement mantle: The ‘French paradox’ may not be a paradox after all
title_fullStr Biomechanical behaviour of a French femoral component with thin cement mantle: The ‘French paradox’ may not be a paradox after all
title_full_unstemmed Biomechanical behaviour of a French femoral component with thin cement mantle: The ‘French paradox’ may not be a paradox after all
title_short Biomechanical behaviour of a French femoral component with thin cement mantle: The ‘French paradox’ may not be a paradox after all
title_sort biomechanical behaviour of a french femoral component with thin cement mantle: the ‘french paradox’ may not be a paradox after all
topic Biomechanics
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6076357/
https://www.ncbi.nlm.nih.gov/pubmed/30123498
http://dx.doi.org/10.1302/2046-3758.77.BJR-2017-0288.R2
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