Evaluation of a geometry-based knee joint compared to a planar knee joint
Anders Sandholm | Cédric Schwartz | Nicolas Pronost |
Ecole Polytechnique Fédérale de Lausanne | Aalborg University | Ecole Polytechnique Fédérale de Lausanne / Utrecht University |
Virtual Reality Lab | SMI | Virtual Reality Lab / Games and Virtual Worlds |
Mark de Zee | Michael Voigt | Daniel Thalmann |
Aalborg University | Aalborg University | Ecole Polytechnique Fédérale de Lausanne |
SMI | SMI | Virtual Reality Lab |
Segmentation result of the knee joint including cartilage and menisci (left), knee joint visualization in the AnyBody system inclusing the contact points (right).
Abstract :
Today neuromuscular simulations are used in several fields, such as diagnostics and planing of surgery, to get a deeper understanding of the musculoskeletal system. During the last year, new models and datasets have been presented which can provide us with more in-depth simulations and results. The same kind of development has occurred in the field of studying the human knee joint using complex three dimensional finite element models and simulations. In the field of musculoskeletal simulations, no such knee joints can be used. Instead the most common knee joint description is an idealized knee joint with limited accuracy or a planar knee joint which only describes the knee motion in a plane. In this paper, a new knee joint based on both equations and geometry is introduced and compared to a common clinical planar knee joint. The two kinematical models are analyzed using a gait motion, and are evaluated using the muscle activation and joint reaction forces which are compared to in vivo measured forces. We show that we are able to predict the lateral, anterior and longitudinal moments, and that we are able to predict better knee and hip joint reaction forces.
Keywords :
Knee joint - Inverse kinematics and dynamics - Joint reaction - Computed muscular control - OrthoLoad - Validation - Musculoskeletal model
Paper :
Author-created version :
The original publication is available at www.springerlink.com
BibTeX :
@article{SSPZVT11,
author = {A. Sandholm and Cédric Schwartz and N. Pronost and Mark de Zee and Michael Voigt and D. Thalmann},
title = {Evaluation of a geometry-based knee joint compared to a planar knee joint},
journal = {The Visual Computer},
year = {2011},
volume = {27},
number = {2},
pages = {161-171},
month = feb,
publisher = {Springer-Verlag GmbH},
doi = {10.1007/s00371-010-0538-7}
}