Computational biomechanics of knee joint in open kinetic chain extension exercises

Open kinetic chain (OKC) extension exercises are commonly performed to strengthen quadriceps muscles and restore joint function in performance enhancement programs, in exercise therapies and following joint reconstruction. Using a validated 3D nonlinear finite element model, the detailed biomechanic...

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Bibliographic Details
Published in:Computer methods in biomechanics and biomedical engineering 2008-02, Vol.11 (1), p.55-61
Main Authors: Mesfar, W., Shirazi-Adl, A.
Format: Article
Language:English
Subjects:
Biomechanical Phenomena - statistics & numerical data
Biomedical Engineering
Computer Simulation
Exercise - physiology
Exercise Therapy
Extension exercise
Finite Element Analysis
Finite elements
Humans
Imaging, Three-Dimensional
Knee joint
Knee Joint - physiology
Ligaments
Models, Biological
Nonlinear Dynamics
Open kinetic chain
Quadriceps
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Summary:Open kinetic chain (OKC) extension exercises are commonly performed to strengthen quadriceps muscles and restore joint function in performance enhancement programs, in exercise therapies and following joint reconstruction. Using a validated 3D nonlinear finite element model, the detailed biomechanics of the entire joint in OKC extension exercises are investigated at 0, 30, 60 and 90° joint angles. Two loading cases are simulated; one with only the weight of the leg and the foot while the second considers also a moderate resistant force of 30 N acting at the ankle perpendicular to the tibia. The presence of the 30 N markedly influences the results both in terms of the magnitude and the trend. The resistant load substantially increases the required quadriceps, patellar tendon, cruciate ligaments and joint contact forces, especially at near 90° angles with the exception of ACL force that is increased at 0° angle. At post-ACL reconstruction period or in the joint with ACL injury, the exercise should preferably be avoided at near full extension positions under large resistant forces.
ISSN:1025-5842
1476-8259
DOI:10.1080/10255840701552028