A contact-coupled finite element analysis of the natural adult hip

Brown, Thomas D.; DiGioia, III, Anthony M.

Affiliations

¹Orthopaedic Research Laboratory, 986 Scaife Hall, University of Pittsburgh, Pittsburgh, PA 15261, U.S.A.

²Department of Civil Engineering and Biomedical Engineering Program, Carnegie-Mellon University, Pittsburgh, PA 15213, U.S.A.

³Current address: Biomechanics Laboratory, Department of Orthopaedic Surgery, University of Iowa Hospitals and Clinics, Iowa City, IA 52242, U.S.A.

²Current address: Harvard Medical School, Boston, MA 02215, U.S.A.

Abstract

A non-linear two-dimensional finite element model was used to study phenomena of stress redistribution in the natural adult hip resulting from parametric material property variations in the juxtarticular regions of the femoral head. Despite the geometrical simplifications employed, the intra-articular contact stresses (computed using the FEAP program) were found to be in reasonable qualitative agreement with previous in vitro data for the case of a normal hip. Generalized sclerotic changes in the subchondral plate, as reflected either in apparent modulus increases or in plate thickening, were found to have only minor effects on the computed contact stress distribution, although stress levels within the plate itself were markedly influenced. Localized subchondral plate sclerosis, by contrast, led to marked stress elevations in the cartilage immediately overlying the stiffened bone. Cartilage modulus increases caused increased load uptake for a given imposed deformation, but involved stress distribution increases which were very nearly linearly proportional to the increases in resultant load magnitude. Friction coefficient elevations had no noticeable effects on normal contact stress or upon overall load transmission, but involved complex, possibly slip-related, changes in intra-articular and cartilaginous shear stresses.

Links

DOI: 10.1016/0021-9290(84)90035-6

PubMed: 6480619

WoS: A1984TB77100004

History

Received: 1983-03-29

Revised: 1983-10-18

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Cited By (21)

Year	Entry
1994	Ateshian GA, Lai WM, Zhu WB, Mow VC. An asymptotic solution for the contact of two biphasic cartilage layers. J Biomech. November 1994;27(11):1347-1360.
1991	Lotz JC, Cheal EJ, Hayes WC. Fracture prediction for the proximal femur using finite element models, I: linear analysis. J Biomech Eng. 1991;113(4):353-360.
1993	Mow VC, Ateshian GA, Spilker RL. Biomechanics of diarthrodial joints: a review of twenty years of progress. J Biomech Eng. November 1993;115(4B):460-467.
2008	Anderson AE, Ellis BJ, Maas SA, Peters CL, Weiss JA. Validation of finite element predictions of cartilage contact pressure in the human hip joint. J Biomech Eng. October 2008;130(5):051008.
1995	Mullender MG, Huiskes R. Proposal for the regulatory mechanism of Wolff's law. J Orthop Res. July 1995;13(4):503-512.
2007	Skedros JG, Baucomb SL. Mathematical analysis of trabecular “trajectories” in apparent trajectorial structures: the unfortunate historical emphasis on the human proximal femur. J Theo Biol. January 7, 2007;244(1):15-45.
2011	O'Neal JM. The Effects of Aging and Remodeling on Bone Quality and Microdamage [PhD thesis]. Atlanta, GA: Georgia Institute of Technology; August 2011.
1988	Lotz JC. Hip Fracture Risk Predictions by X-Ray Computed Tomography [PhD thesis]. Cambridge, MA: Massachusetts Institute of Technology; August 1988.
1999	Apreleva M. Experimental and Computational Approach to Study Contact Mechanics At the Glenohumeral Joint [PhD thesis]. University of Pittsburgh; 1999.
1998	Giddings VL. Computer Simulations of Calcaneal Loading and Bone Adaptation [PhD thesis]. Stanford University; June 1998.
2000	Kralovic BJ. The Effects of Patellofemoral Kinematics on Joint Congruence and Cartilage Stresses [Master's thesis]. Calgary, AB: University of Calgary; January 2000.
2003	Han S-K. Articular Cartilage Modeling in the 3-D Patellofemoral Joint Contact [Master's thesis]. Calgary, AB: University of Calgary; June 2003.
2003	Pardy CK. The Effects of Doxycycline on the Mechanical and Morphometric Properties of Early and Established Osteoarthritic Bone in a Canine Model Following Anterior Cruciate Ligament Injury [Master's thesis]. Calgary, AB: University of Calgary; October 2003.
1989	Anderson DD. Finite Element Analyses of the Impulsively Loaded Extension-Splinted Rabbit Knee [PhD thesis]. University of Iowa; December 1989.
1991	Hale JE. Some Aspects of the Biomechanics of Local Articular Incongruities [PhD thesis]. University of Iowa; December 1991.
1997	Sabick MB. The Effects of Fall Direction and Protective Responses on the Likelihood of Hip Fracture in Falls [PhD thesis]. University of Iowa; August 1997.
1986	Bylski DI. In Situ Measurement of Meniscal Mechanics in Human Knee Joints [PhD thesis]. University of Michigan; 1986.
2007	Anderson AE. Computational Modeling of Hip Joint Mechanics [PhD thesis]. University of Utah; April 2007.
2013	Harris MD. The Geometry and Biomechanics of Normal and Pathomorphologic Human Hips [PhD thesis]. University of Utah; August 2013.
2013	Henak CR. Cartilage and Labrum Mechanics in the Normal and Pathomorphologic Human Hip [PhD thesis]. University of Utah; August 2013.
2014	Abraham CL. Biomechanical Analysis of Acetabular Dysplasia: Foundations for Improved Clinical Care [PhD thesis]. University of Utah; December 2014.