Development and validation of a computational model of the knee joint for the evaluation of surgical treatments for osteoarthritis

A three-dimensional (3D) knee joint computational model was developed and validated to predict knee joint contact forces and pressures for different degrees of malalignment. A 3D computational knee model was created from high-resolution radiological images to emulate passive sagittal rotation (full-...

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Autores principales: Mootanah, R., Imhauser, C.W., Reisse, F., Carpanen, D., Walker, R.W., Koff, M.F., Lenhoff, M.W., Rozbruch, S.R., Fragomen, A.T., Dewan, Z., Kirane, Y.M., Cheah, Pamela A., Dowell, J.K., Hillstrom, H.J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Taylor & Francis 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4047624/
https://www.ncbi.nlm.nih.gov/pubmed/24786914
http://dx.doi.org/10.1080/10255842.2014.899588
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author Mootanah, R.
Imhauser, C.W.
Reisse, F.
Carpanen, D.
Walker, R.W.
Koff, M.F.
Lenhoff, M.W.
Rozbruch, S.R.
Fragomen, A.T.
Dewan, Z.
Kirane, Y.M.
Cheah, Pamela A.
Dowell, J.K.
Hillstrom, H.J.
author_facet Mootanah, R.
Imhauser, C.W.
Reisse, F.
Carpanen, D.
Walker, R.W.
Koff, M.F.
Lenhoff, M.W.
Rozbruch, S.R.
Fragomen, A.T.
Dewan, Z.
Kirane, Y.M.
Cheah, Pamela A.
Dowell, J.K.
Hillstrom, H.J.
author_sort Mootanah, R.
collection PubMed
description A three-dimensional (3D) knee joint computational model was developed and validated to predict knee joint contact forces and pressures for different degrees of malalignment. A 3D computational knee model was created from high-resolution radiological images to emulate passive sagittal rotation (full-extension to 65°-flexion) and weight acceptance. A cadaveric knee mounted on a six-degree-of-freedom robot was subjected to matching boundary and loading conditions. A ligament-tuning process minimised kinematic differences between the robotically loaded cadaver specimen and the finite element (FE) model. The model was validated by measured intra-articular force and pressure measurements. Percent full scale error between EE-predicted and in vitro-measured values in the medial and lateral compartments were 6.67% and 5.94%, respectively, for normalised peak pressure values, and 7.56% and 4.48%, respectively, for normalised force values. The knee model can accurately predict normalised intra-articular pressure and forces for different loading conditions and could be further developed for subject-specific surgical planning.
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spelling pubmed-40476242014-06-18 Development and validation of a computational model of the knee joint for the evaluation of surgical treatments for osteoarthritis Mootanah, R. Imhauser, C.W. Reisse, F. Carpanen, D. Walker, R.W. Koff, M.F. Lenhoff, M.W. Rozbruch, S.R. Fragomen, A.T. Dewan, Z. Kirane, Y.M. Cheah, Pamela A. Dowell, J.K. Hillstrom, H.J. Comput Methods Biomech Biomed Engin Research Article A three-dimensional (3D) knee joint computational model was developed and validated to predict knee joint contact forces and pressures for different degrees of malalignment. A 3D computational knee model was created from high-resolution radiological images to emulate passive sagittal rotation (full-extension to 65°-flexion) and weight acceptance. A cadaveric knee mounted on a six-degree-of-freedom robot was subjected to matching boundary and loading conditions. A ligament-tuning process minimised kinematic differences between the robotically loaded cadaver specimen and the finite element (FE) model. The model was validated by measured intra-articular force and pressure measurements. Percent full scale error between EE-predicted and in vitro-measured values in the medial and lateral compartments were 6.67% and 5.94%, respectively, for normalised peak pressure values, and 7.56% and 4.48%, respectively, for normalised force values. The knee model can accurately predict normalised intra-articular pressure and forces for different loading conditions and could be further developed for subject-specific surgical planning. Taylor & Francis 2014-05-01 2014-10 /pmc/articles/PMC4047624/ /pubmed/24786914 http://dx.doi.org/10.1080/10255842.2014.899588 Text en © 2014 Taylor & Francis http://www.informaworld.com/mpp/uploads/iopenaccess_tcs.pdf This is an open access article distributed under the Supplemental Terms and Conditions for iOpenAccess articles published in Taylor & Francis journals (http://www.informaworld.com/mpp/uploads/iopenaccess_tcs.pdf) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. The research published in this paper won the Materialise Mimics Innovation Award in Category 3: Orthopaedic Applications. This prize for innovative research was awarded to Dr Rajshree Mootanah of Anglia Ruskin University, UK, and Dr Howard Hillstrom of the Hospital for Special Surgery, USA, who were among 85 international applicants considered for the award. See http://biomedical.materialise.com/MIA
spellingShingle Research Article
Mootanah, R.
Imhauser, C.W.
Reisse, F.
Carpanen, D.
Walker, R.W.
Koff, M.F.
Lenhoff, M.W.
Rozbruch, S.R.
Fragomen, A.T.
Dewan, Z.
Kirane, Y.M.
Cheah, Pamela A.
Dowell, J.K.
Hillstrom, H.J.
Development and validation of a computational model of the knee joint for the evaluation of surgical treatments for osteoarthritis
title Development and validation of a computational model of the knee joint for the evaluation of surgical treatments for osteoarthritis
title_full Development and validation of a computational model of the knee joint for the evaluation of surgical treatments for osteoarthritis
title_fullStr Development and validation of a computational model of the knee joint for the evaluation of surgical treatments for osteoarthritis
title_full_unstemmed Development and validation of a computational model of the knee joint for the evaluation of surgical treatments for osteoarthritis
title_short Development and validation of a computational model of the knee joint for the evaluation of surgical treatments for osteoarthritis
title_sort development and validation of a computational model of the knee joint for the evaluation of surgical treatments for osteoarthritis
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4047624/
https://www.ncbi.nlm.nih.gov/pubmed/24786914
http://dx.doi.org/10.1080/10255842.2014.899588
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