A comprehensive assessment of the musculoskeletal system: The CAMS-Knee data set

Combined knowledge of the functional kinematics and kinetics of the human body is critical for understanding a wide range of biomechanical processes including musculoskeletal adaptation, injury mechanics, and orthopaedic treatment outcome, but also for validation of musculoskeletal models. Until now...

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Bibliographic Details
Published inJournal of biomechanics Vol. 65; pp. 32 - 39
Main Authors Taylor, William R., Schütz, Pascal, Bergmann, Georg, List, Renate, Postolka, Barbara, Hitz, Marco, Dymke, Jörn, Damm, Philipp, Duda, Georg, Gerber, Hans, Schwachmeyer, Verena, Hosseini Nasab, Seyyed Hamed, Trepczynski, Adam, Kutzner, Ines
Format Journal Article
LanguageEnglish
Published United States Elsevier Ltd 08.12.2017
Elsevier Limited
Subjects
Activities of Daily Living
Aged
Biomechanical Phenomena
Biomechanics
Body kinematics
Cams
Datasets
Descent
Electromyography
EMG
Female
Femur
Femur - physiology
Ground reaction forces
Humans
Implants
In vivo kinematics
Internal loading conditions
Joint surgery
Kinematics
Kinetics
Knee
Knee Joint - physiology
Knee Prosthesis
Lower Extremity - physiology
Male
Middle Aged
Moving fluoroscope
Muscle, Skeletal - physiology
Musculoskeletal system
R&D
Reaction kinetics
Research & development
Rotation
Strain gauges
Telemetry
Tibia
Tibia - physiology
Tibio-femoral joint contact forces
Transplants & implants
Video data
Walking
Walking - physiology
Switzerland
In vivo kinematics
Ground reaction forces
Internal loading conditions
Moving fluoroscope
Tibio-femoral joint contact forces
Telemetry
EMG
Online AccessGet full text
ISSN0021-9290
1873-2380
1873-2380
DOI10.1016/j.jbiomech.2017.09.022

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Abstract Combined knowledge of the functional kinematics and kinetics of the human body is critical for understanding a wide range of biomechanical processes including musculoskeletal adaptation, injury mechanics, and orthopaedic treatment outcome, but also for validation of musculoskeletal models. Until now, however, no datasets that include internal loading conditions (kinetics), synchronized with advanced kinematic analyses in multiple subjects have been available. Our goal was to provide such datasets and thereby foster a new understanding of how in vivo knee joint movement and contact forces are interlinked – and thereby impact biomechanical interpretation of any new knee replacement design. In this collaborative study, we have created unique kinematic and kinetic datasets of the lower limb musculoskeletal system for worldwide dissemination by assessing a unique cohort of 6 subjects with instrumented knee implants (Charité – Universitätsmedizin Berlin) synchronized with a moving fluoroscope (ETH Zürich) and other measurement techniques (including whole body kinematics, ground reaction forces, video data, and electromyography data) for multiple complete cycles of 5 activities of daily living. Maximal tibio-femoral joint contact forces during walking (mean peak 2.74 BW), sit-to-stand (2.73 BW), stand-to-sit (2.57 BW), squats (2.64 BW), stair descent (3.38 BW), and ramp descent (3.39 BW) were observed. Internal rotation of the tibia ranged from 3° external to 9.3° internal. The greatest range of anterio-posterior translation was measured during stair descent (medial 9.3 ± 1.0 mm, lateral 7.5 ± 1.6 mm), and the lowest during stand-to-sit (medial 4.5 ± 1.1 mm, lateral 3.7 ± 1.4 mm). The complete and comprehensive datasets will soon be made available online for public use in biomechanical and orthopaedic research and development.
AbstractList Combined knowledge of the functional kinematics and kinetics of the human body is critical for understanding a wide range of biomechanical processes including musculoskeletal adaptation, injury mechanics, and orthopaedic treatment outcome, but also for validation of musculoskeletal models. Until now, however, no datasets that include internal loading conditions (kinetics), synchronized with advanced kinematic analyses in multiple subjects have been available. Our goal was to provide such datasets and thereby foster a new understanding of how in vivo knee joint movement and contact forces are interlinked – and thereby impact biomechanical interpretation of any new knee replacement design. In this collaborative study, we have created unique kinematic and kinetic datasets of the lower limb musculoskeletal system for worldwide dissemination by assessing a unique cohort of 6 subjects with instrumented knee implants (Charité – Universitätsmedizin Berlin) synchronized with a moving fluoroscope (ETH Zürich) and other measurement techniques (including whole body kinematics, ground reaction forces, video data, and electromyography data) for multiple complete cycles of 5 activities of daily living. Maximal tibio-femoral joint contact forces during walking (mean peak 2.74 BW), sit-to-stand (2.73 BW), stand-to-sit (2.57 BW), squats (2.64 BW), stair descent (3.38 BW), and ramp descent (3.39 BW) were observed. Internal rotation of the tibia ranged from 3° external to 9.3° internal. The greatest range of anterio-posterior translation was measured during stair descent (medial 9.3 ± 1.0 mm, lateral 7.5 ± 1.6 mm), and the lowest during stand-to-sit (medial 4.5 ± 1.1 mm, lateral 3.7 ± 1.4 mm). The complete and comprehensive datasets will soon be made available online for public use in biomechanical and orthopaedic research and development.
Combined knowledge of the functional kinematics and kinetics of the human body is critical for understanding a wide range of biomechanical processes including musculoskeletal adaptation, injury mechanics, and orthopaedic treatment outcome, but also for validation of musculoskeletal models. Until now, however, no datasets that include internal loading conditions (kinetics), synchronized with advanced kinematic analyses in multiple subjects have been available. Our goal was to provide such datasets and thereby foster a new understanding of how in vivo knee joint movement and contact forces are interlinked - and thereby impact biomechanical interpretation of any new knee replacement design. In this collaborative study, we have created unique kinematic and kinetic datasets of the lower limb musculoskeletal system for worldwide dissemination by assessing a unique cohort of 6 subjects with instrumented knee implants (Charité - Universitätsmedizin Berlin) synchronized with a moving fluoroscope (ETH Zürich) and other measurement techniques (including whole body kinematics, ground reaction forces, video data, and electromyography data) for multiple complete cycles of 5 activities of daily living. Maximal tibio-femoral joint contact forces during walking (mean peak 2.74 BW), sit-to-stand (2.73 BW), stand-to-sit (2.57 BW), squats (2.64 BW), stair descent (3.38 BW), and ramp descent (3.39 BW) were observed. Internal rotation of the tibia ranged from 3° external to 9.3° internal. The greatest range of anterio-posterior translation was measured during stair descent (medial 9.3 ± 1.0 mm, lateral 7.5 ± 1.6 mm), and the lowest during stand-to-sit (medial 4.5 ± 1.1 mm, lateral 3.7 ± 1.4 mm). The complete and comprehensive datasets will soon be made available online for public use in biomechanical and orthopaedic research and development.Combined knowledge of the functional kinematics and kinetics of the human body is critical for understanding a wide range of biomechanical processes including musculoskeletal adaptation, injury mechanics, and orthopaedic treatment outcome, but also for validation of musculoskeletal models. Until now, however, no datasets that include internal loading conditions (kinetics), synchronized with advanced kinematic analyses in multiple subjects have been available. Our goal was to provide such datasets and thereby foster a new understanding of how in vivo knee joint movement and contact forces are interlinked - and thereby impact biomechanical interpretation of any new knee replacement design. In this collaborative study, we have created unique kinematic and kinetic datasets of the lower limb musculoskeletal system for worldwide dissemination by assessing a unique cohort of 6 subjects with instrumented knee implants (Charité - Universitätsmedizin Berlin) synchronized with a moving fluoroscope (ETH Zürich) and other measurement techniques (including whole body kinematics, ground reaction forces, video data, and electromyography data) for multiple complete cycles of 5 activities of daily living. Maximal tibio-femoral joint contact forces during walking (mean peak 2.74 BW), sit-to-stand (2.73 BW), stand-to-sit (2.57 BW), squats (2.64 BW), stair descent (3.38 BW), and ramp descent (3.39 BW) were observed. Internal rotation of the tibia ranged from 3° external to 9.3° internal. The greatest range of anterio-posterior translation was measured during stair descent (medial 9.3 ± 1.0 mm, lateral 7.5 ± 1.6 mm), and the lowest during stand-to-sit (medial 4.5 ± 1.1 mm, lateral 3.7 ± 1.4 mm). The complete and comprehensive datasets will soon be made available online for public use in biomechanical and orthopaedic research and development.
Author Bergmann, Georg
Schütz, Pascal
Duda, Georg
Kutzner, Ines
Dymke, Jörn
Schwachmeyer, Verena
Taylor, William R.
Damm, Philipp
Gerber, Hans
Hosseini Nasab, Seyyed Hamed
Hitz, Marco
Postolka, Barbara
Trepczynski, Adam
List, Renate
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/29037443$$D View this record in MEDLINE/PubMed
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ISSN 0021-9290
1873-2380
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Keywords In vivo kinematics
Ground reaction forces
Internal loading conditions
Moving fluoroscope
Tibio-femoral joint contact forces
Telemetry
EMG
Language English
License This is an open access article under the CC BY-NC-ND license.
Copyright © 2017 The Authors. Published by Elsevier Ltd.. All rights reserved.
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SubjectTerms Activities of Daily Living
Aged
Biomechanical Phenomena
Biomechanics
Body kinematics
Cams
Datasets
Descent
Electromyography
EMG
Female
Femur
Femur - physiology
Ground reaction forces
Humans
Implants
In vivo kinematics
Internal loading conditions
Joint surgery
Kinematics
Kinetics
Knee
Knee Joint - physiology
Knee Prosthesis
Lower Extremity - physiology
Male
Middle Aged
Moving fluoroscope
Muscle, Skeletal - physiology
Musculoskeletal system
R&D
Reaction kinetics
Research & development
Rotation
Strain gauges
Telemetry
Tibia
Tibia - physiology
Tibio-femoral joint contact forces
Transplants & implants
Video data
Walking
Walking - physiology
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Title A comprehensive assessment of the musculoskeletal system: The CAMS-Knee data set
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