An extended OpenSim knee model for analysis of strains of connective tissues

An extended OpenSim knee model for analysis of strains of connective tissues

Abstract Background OpenSim musculoskeletal models provide an accurate simulation environment that eases limitations of in vivo and in vitro studies. In this work, a biomechanical knee model was formulated with femoral articular cartilages and menisci along with 25 connective tissue bundles represen...

Full description

Bibliographic Details
Main Authors: M. Marieswaran, Arnab Sikidar, Anu Goel, Deepak Joshi, Dinesh Kalyanasundaram
Format: Article
Language:English
Published: BMC 2018-04-01
Series:BioMedical Engineering OnLine
Subjects:
Musculoskeletal model
OpenSim
Ligament
Strain
Differential intra-bundle strain
Online Access:http://link.springer.com/article/10.1186/s12938-018-0474-8
id doaj-bdaac908cc504115922104ea0eddae66
record_format Article
spelling doaj-bdaac908cc504115922104ea0eddae662020-11-25T01:11:33ZengBMCBioMedical Engineering OnLine1475-925X2018-04-0117111310.1186/s12938-018-0474-8An extended OpenSim knee model for analysis of strains of connective tissuesM. Marieswaran0Arnab Sikidar1Anu Goel2Deepak Joshi3Dinesh Kalyanasundaram4Centre for Biomedical Engineering, Indian Institute of Technology DelhiCentre for Biomedical Engineering, Indian Institute of Technology DelhiCentre for Biomedical Engineering, Indian Institute of Technology DelhiCentre for Biomedical Engineering, Indian Institute of Technology DelhiCentre for Biomedical Engineering, Indian Institute of Technology DelhiAbstract Background OpenSim musculoskeletal models provide an accurate simulation environment that eases limitations of in vivo and in vitro studies. In this work, a biomechanical knee model was formulated with femoral articular cartilages and menisci along with 25 connective tissue bundles representing ligaments and capsules. The strain patterns of the connective tissues in the presence of femoral articular cartilage and menisci in the OpenSim knee model was probed in a first of its kind study. Methods The effect of knee flexion (0°–120°), knee rotation (− 40° to 30°) and knee adduction (− 15° to 15°) on the anterior cruciate, posterior cruciate, medial collateral, lateral collateral ligaments and other connective tissues were studied by passive simulation. Further, a new parameter for assessment of strain namely, the differential inter-bundle strain of the connective tissues were analyzed to provide new insights for injury kinematics. Results ACL, PCL, LCL and PL was observed to follow a parabolic strain pattern during flexion while MCL represented linear strain patterns. All connective tissues showed non-symmetric parabolic strain variation during rotation. During adduction, the strain variation was linear for the knee bundles except for FL, PFL and TL. Conclusions Strains higher than 0.1 were observed in most of the bundles during lateral rotation followed by abduction, medial rotation and adduction. In the case of flexion, highest strains were observed in aACL and aPCL. A combination of strains at a flexion of 0° with medial rotation of 30° or a flexion of 80° with rotation of 30° are evaluated as rupture-prone kinematics.http://link.springer.com/article/10.1186/s12938-018-0474-8Musculoskeletal modelOpenSimLigamentStrainDifferential intra-bundle strain
collection DOAJ
language English
format Article
sources DOAJ
author M. Marieswaran
Arnab Sikidar
Anu Goel
Deepak Joshi
Dinesh Kalyanasundaram
spellingShingle M. Marieswaran
Arnab Sikidar
Anu Goel
Deepak Joshi
Dinesh Kalyanasundaram
An extended OpenSim knee model for analysis of strains of connective tissues
BioMedical Engineering OnLine
Musculoskeletal model
OpenSim
Ligament
Strain
Differential intra-bundle strain
author_facet M. Marieswaran
Arnab Sikidar
Anu Goel
Deepak Joshi
Dinesh Kalyanasundaram
author_sort M. Marieswaran
title An extended OpenSim knee model for analysis of strains of connective tissues
title_short An extended OpenSim knee model for analysis of strains of connective tissues
title_full An extended OpenSim knee model for analysis of strains of connective tissues
title_fullStr An extended OpenSim knee model for analysis of strains of connective tissues
title_full_unstemmed An extended OpenSim knee model for analysis of strains of connective tissues
title_sort extended opensim knee model for analysis of strains of connective tissues
publisher BMC
series BioMedical Engineering OnLine
issn 1475-925X
publishDate 2018-04-01
description Abstract Background OpenSim musculoskeletal models provide an accurate simulation environment that eases limitations of in vivo and in vitro studies. In this work, a biomechanical knee model was formulated with femoral articular cartilages and menisci along with 25 connective tissue bundles representing ligaments and capsules. The strain patterns of the connective tissues in the presence of femoral articular cartilage and menisci in the OpenSim knee model was probed in a first of its kind study. Methods The effect of knee flexion (0°–120°), knee rotation (− 40° to 30°) and knee adduction (− 15° to 15°) on the anterior cruciate, posterior cruciate, medial collateral, lateral collateral ligaments and other connective tissues were studied by passive simulation. Further, a new parameter for assessment of strain namely, the differential inter-bundle strain of the connective tissues were analyzed to provide new insights for injury kinematics. Results ACL, PCL, LCL and PL was observed to follow a parabolic strain pattern during flexion while MCL represented linear strain patterns. All connective tissues showed non-symmetric parabolic strain variation during rotation. During adduction, the strain variation was linear for the knee bundles except for FL, PFL and TL. Conclusions Strains higher than 0.1 were observed in most of the bundles during lateral rotation followed by abduction, medial rotation and adduction. In the case of flexion, highest strains were observed in aACL and aPCL. A combination of strains at a flexion of 0° with medial rotation of 30° or a flexion of 80° with rotation of 30° are evaluated as rupture-prone kinematics.
topic Musculoskeletal model
OpenSim
Ligament
Strain
Differential intra-bundle strain
url http://link.springer.com/article/10.1186/s12938-018-0474-8
work_keys_str_mv AT mmarieswaran anextendedopensimkneemodelforanalysisofstrainsofconnectivetissues
AT arnabsikidar anextendedopensimkneemodelforanalysisofstrainsofconnectivetissues
AT anugoel anextendedopensimkneemodelforanalysisofstrainsofconnectivetissues
AT deepakjoshi anextendedopensimkneemodelforanalysisofstrainsofconnectivetissues
AT dineshkalyanasundaram anextendedopensimkneemodelforanalysisofstrainsofconnectivetissues
AT mmarieswaran extendedopensimkneemodelforanalysisofstrainsofconnectivetissues
AT arnabsikidar extendedopensimkneemodelforanalysisofstrainsofconnectivetissues
AT anugoel extendedopensimkneemodelforanalysisofstrainsofconnectivetissues
AT deepakjoshi extendedopensimkneemodelforanalysisofstrainsofconnectivetissues
AT dineshkalyanasundaram extendedopensimkneemodelforanalysisofstrainsofconnectivetissues
_version_ 1725170903883448320

Similar Items