Please use this identifier to cite or link to this item: http://hdl.handle.net/1822/23437

TitleDevelopment of a planar multi-body model of the human knee joint
Author(s)Machado, Margarida F.
Flores, Paulo
Claro, José Carlos Pimenta
Ambrósio, Jorge
Silva, Miguel
Completo, António
Lankarani, Hamid M.
KeywordsKnee joint
Ligaments
Contact-impact forces
Multi-body dynamics
Contact
Issue date2010
PublisherSpringer
JournalNonlinear Dynamics
Abstract(s)The aim of this work is to develop a dynamic model for the biological human knee joint. The model is formulated in the framework of multibody systems methodologies, as a system of two bodies, the femur and the tibia. For the purpose of describing the formulation, the relative motion of the tibia with respect to the femur is considered. Due to their higher stiffness compared to that of the articular cartilages, the femur and tibia are considered as rigid bodies. The femur and tibia cartilages are considered to be deformable structures with specific material characteristics. The rotation and gliding motions of the tibia relative to the femur can not be modeled with any conventional kinematic joint, but rather in terms of the action of the knee ligaments and potential contact between the bones. Based on medical imaging techniques, the femur and tibia profiles in the sagittal plane are extracted and used to define the interface geometric conditions for contact. When a contact is detected, a continuous non-linear contact force law is applied which calculates the contact forces developed at the interface as a function of the relative indentation between the two bodies. The four basic cruciate and collateral ligaments present in the knee are also taken into account in the proposed knee joint model, which are modeled as non-linear elastic springs. The forces produced in the ligaments, together with the contact forces, are introduced into the system’s equations of motion as external forces. In addition, an external force is applied on the center of mass of the tibia, in order to actuate the system mimicking a normal gait motion. Finally, numerical results obtained from computational simulations are used to address the assumptions and procedures adopted in this study.
TypeArticle
URIhttp://hdl.handle.net/1822/23437
DOI10.1007/s11071-009-9608-7
ISSN0924-090X
Publisher versionwww.springerlink.com
Peer-Reviewedyes
AccessOpen access
Appears in Collections:DEM - Artigos em revistas de circulação internacional com arbitragem científica

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