Knee Kinematics Estimation Using Multi-Body Optimisation Embedding a Knee Joint Stiffness Matrix: A Feasibility Study

The use of multi-body optimisation (MBO) to estimate joint kinematics from stereophotogrammetric data while compensating for soft tissue artefact is still open to debate. Presently used joint models embedded in MBO, such as mechanical linkages, constitute a considerable simplification of joint funct...

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Bibliographic Details
Published in:	PloS one Vol. 11; no. 6; p. e0157010
Main Authors:	Richard, Vincent, Lamberto, Giuliano, Lu, Tung-Wu, Cappozzo, Aurelio, Dumas, Raphaël
Format:	Journal Article
Language:	English
Published:	United States Public Library of Science 01-06-2016 Public Library of Science (PLoS)
Subjects:	Accuracy Adult Bernard, Claude (1813-78) Bioengineering Biology and Life Sciences Biomechanical Phenomena Biomechanics Constraint modelling Data processing Deformation Deformation mechanisms Embedding Feasibility studies Female Femur Femur - pathology Femur - physiology Fluoroscopy Health sciences Humans Joint Diseases - physiopathology Kinematics Knee Knee - anatomy & histology Knee - physiology Knee Joint - anatomy & histology Knee Joint - physiology Life Sciences Male Mechanics Medicine and Health Sciences Methods Models, Theoretical Movement - physiology Optimization Parameter identification Physical Sciences Physics Range of Motion, Articular - physiology Rigid structures Rigid-body dynamics Sensitivity analysis Skin Stiffness matrix Tibia Tibia - pathology Tibia - physiology France Italy Taiwan KNEE BIOMECHANICS BIOMECANIQUE ARTICULATION HUMAINE GENOU
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Summary:	The use of multi-body optimisation (MBO) to estimate joint kinematics from stereophotogrammetric data while compensating for soft tissue artefact is still open to debate. Presently used joint models embedded in MBO, such as mechanical linkages, constitute a considerable simplification of joint function, preventing a detailed understanding of it. The present study proposes a knee joint model where femur and tibia are represented as rigid bodies connected through an elastic element the behaviour of which is described by a single stiffness matrix. The deformation energy, computed from the stiffness matrix and joint angles and displacements, is minimised within the MBO. Implemented as a "soft" constraint using a penalty-based method, this elastic joint description challenges the strictness of "hard" constraints. In this study, estimates of knee kinematics obtained using MBO embedding four different knee joint models (i.e., no constraints, spherical joint, parallel mechanism, and elastic joint) were compared against reference kinematics measured using bi-planar fluoroscopy on two healthy subjects ascending stairs. Bland-Altman analysis and sensitivity analysis investigating the influence of variations in the stiffness matrix terms on the estimated kinematics substantiate the conclusions. The difference between the reference knee joint angles and displacements and the corresponding estimates obtained using MBO embedding the stiffness matrix showed an average bias and standard deviation for kinematics of 0.9±3.2° and 1.6±2.3 mm. These values were lower than when no joint constraints (1.1±3.8°, 2.4±4.1 mm) or a parallel mechanism (7.7±3.6°, 1.6±1.7 mm) were used and were comparable to the values obtained with a spherical joint (1.0±3.2°, 1.3±1.9 mm). The study demonstrated the feasibility of substituting an elastic joint for more classic joint constraints in MBO.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Competing Interests: The authors have declared that no competing interests exist. Conceived and designed the experiments: GL TWL. Performed the experiments: GL TWL. Analyzed the data: VR AC RD. Contributed reagents/materials/analysis tools: VR AC RD. Wrote the paper: VR GL TWL AC RD.
ISSN:	1932-6203 1932-6203
DOI:	10.1371/journal.pone.0157010