In this first part of a two-part paper, the results of measurement of static pressure distribution on the tibial surface of the knee are presented. Results with intact menisci have been obtained from 18 specimens. Eight of these specimens were the subject of further measurements following medial meniscectomy. The study has been carried out at various flexion angles of the knee with the joint subjected to a compressive force, with or without an initial passive relative displacement between the joint members. The results indicate that a significant fraction of the joint compressive load is transmitted through the menisci and that total meniscectomy causes a drastic alteration in the pressure distribution on the tibial surface. Clinical implications of these results, in terms of post-meniscectomy degenerative changes and mechanism of meniscal lesions, have been discussed.
Skip Nav Destination
Article navigation
August 1983
Research Papers
In-Vitro of Measurement of Static Pressure Distribution in Synovial Joints—Part I: Tibial Surface of the Knee
A. M. Ahmed,
A. M. Ahmed
Department of Mechanical Engineering, McGill University, Montreal, Canada
Search for other works by this author on:
D. L. Burke
D. L. Burke
Department of Orthopaedic Surgery, McGill University and Montreal General Hospital, Montreal, Canada
Search for other works by this author on:
A. M. Ahmed
Department of Mechanical Engineering, McGill University, Montreal, Canada
D. L. Burke
Department of Orthopaedic Surgery, McGill University and Montreal General Hospital, Montreal, Canada
J Biomech Eng. Aug 1983, 105(3): 216-225 (10 pages)
Published Online: August 1, 1983
Article history
Received:
July 8, 1982
Revised:
April 5, 1983
Online:
June 15, 2009
Citation
Ahmed, A. M., and Burke, D. L. (August 1, 1983). "In-Vitro of Measurement of Static Pressure Distribution in Synovial Joints—Part I: Tibial Surface of the Knee." ASME. J Biomech Eng. August 1983; 105(3): 216–225. https://doi.org/10.1115/1.3138409
Download citation file:
Get Email Alerts
Estimation of Joint Kinetics During Manual Material Handling Using Inertial Motion Capture: A Follow-Up Study
J Biomech Eng (February 2025)
Effect of Compressive Strain Rates on Viscoelasticity and Water Content in Intact Porcine Stomach Wall Tissues
J Biomech Eng (February 2025)
Eyelid Motion Tracking During Blinking Using High-Speed Imaging and Digital Image Correlation
J Biomech Eng (January 2025)
Related Articles
Finite Element Model of the Knee for Investigation of Injury Mechanisms: Development and Validation
J Biomech Eng (January,2014)
A Novel Quantitative Approach for Evaluating Contact Mechanics of Meniscal Replacements
J Biomech Eng (February,2010)
A Modeling Study of Partial ACL Injury: Simulated KT-2000 Arthrometer Tests
J Biomech Eng (June,2002)
Discrete Element Analysis for Characterizing the Patellofemoral Pressure Distribution: Model Evaluation
J Biomech Eng (August,2013)
Related Proceedings Papers
Related Chapters
Design for Displacement Strains
Process Piping: The Complete Guide to ASME B31.3, Fourth Edition
A Fatigue Crack Growth Analysis Method Based on a Simple Representation of Crack-Tip Plasticity
Cyclic Stress-Strain and Plastic Deformation Aspects of Fatigue Crack Growth
Application of Direct Measurement of J-Integral on a Pressure Vessel with Axial Notch
Fracture Mechanics: Eighteenth Symposium