An analytical model to study blunt impact response of the rabbit P-F joint

wbldb

Li, Xiaowei¹; Haut, Roger C.¹; Altiero, Nicholas J.¹

An analytical model to study blunt impact response of the rabbit P-F joint

J Biomech Eng. November 1995;117(4):485-491

©1995 ASME

Affiliations

¹Materials Science and Mechanics Department, Michigan State University, East Lansing, Ml 48824
Abstract

While mechanisms of post-traumatic osteoarthrosis are largely unknown, excessive stresses and strains generated in articular cartilage and the underlying bone may play a role. In this manuscript a technique is described for studying the impact response of a diarthrodial joint. A mathematical model of the rabbit PF joint indicated that contact pressures predicted by a quasi-static plane strain linear elastic model compared well with experimental data when Poisson’s ratio and Young’s modulus of the cartilage were 0.49 and 2 MPa, respectively. This value for the elastic modulus compared well with that obtained from elastic analysis of short-time indentation experiments on cartilage from a previous study. The model analysis also suggested that surface fissuring of patellar cartilage occurs near areas where shear stresses and tensile strains are high. Impact location on the patella significantly influenced the distributions of shear stress along the bone-cartilage interface and tensile strains in the cartilage. These results may help explain some of the mechanisms of initial tissue damage reported elsewhere. Limited experimental data are presented here but the value of such mathematical models for estimation of material properties and for analysis of damage creation is clearly demonstrated.
Links

DOI: 10.1115/1.2794212

PubMed: 8748533

WoS: A1995TT90000017
History

Received: 1993-10-14

Revised: 1994-11-21

Cited Works (16)

Year	Entry
1980	Mow VC, Kuei SC, Lai WM, Armstrong CG. Biphasic creep and stress relaxation of articular cartilage in compression: theory and experiments. J Biomech Eng. February 1980;102(1):73-84.
1989	Haut RC. Contact pressures in the patellofemoral joint during impact loading on the human flexed knee. J Orthop Res. March 1989;7(2):272-280.
1976	Woo SL-Y, Akeson WH, Jemmott GF. Measurements of nonhomogeneous, directional mechanical properties of articular cartilage in tension. J Biomech. 1976;9(12):785-791.
1994	Schwartz MH, Leo PH, Lewis JL. A microstructural model for the elastic response of articular cartilage. J Biomech. July 1994;27(7):865-873.
1991	Blankevoort L, Kuiper JH, Huiskes R, Grootenboer HJ. Articular contact in a three-dimensional model of the knee. J Biomech. 1991;24(11):1019-1031.
1990	Jurvelin J, Kiviranta I, Säämänen A-M, Tammi M, Helminen HJ. Indentation stiffness of young canine knee articular cartilage: influence of strenuous joint loading. J Biomech. 1990;23(12):1239-1246.
1978	Radin EL, Ehrlich MG, Chernack R, Abernethy P, Paul IL, Rose RM. Effect of repetitive impulsive loading on the knee joints of rabbits. Clin Orthop Relat Res. March–April 1978;131:288-293.
1982	Mankin HJ. The response of articular cartilage to mechanical injury. J Bone Joint Surg. March 1982;64A(3):460-466.
1991	Thompson RC Jr, Oegema TR Jr, Lewis JL, Wallace L. Osteoarthrotic changes after acute transarticular load: an animal model. J Bone Joint Surg. August 1991;73A(7):990-1001.
1978	Askew MJ, Mow VC. The biomechanical function of the collagen fibril ultrastructure of articular cartilage. J Biomech Eng. August 1978;100(3):105-115.
1977	Repo RU, Finlay JB. Survival of articular cartilage after controlled impact. J Bone Joint Surg. December 1977;59A(8):1068-1076.
1972	Hayes WC, Keer LM, Herrmann G, Mockros LF. A mathematical analysis for indentation tests of articular cartilage. J Biomech. September 1972;5(5):541-551.
1970	States JD. Traumatic arthritis: a medical and legal dilemma. In: 14th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM). November 19-20, 1970; Ann Arbor, MI.21-28.
1991	Eberhardt AW, Lewis JL, Keer LM. Normal contact of elastic spheres with two elastic layers as a model of joint articulation. J Biomech Eng. November 1991;113(4):410-417.
1990	Eberhardt AW, Keer LM, Lewis JL, Vithoontien V. An analytical model of joint contact. J Biomech Eng. November 1990;112(4):407-413.
1992	Hale JE, Brown TD. Contact stress gradient detection limits of pressensor film. J Biomech Eng. August 1992;114(3):352-357.

Cited By (26)

Year	Entry
2003	Ateshian GA, Hung CT. Functional properties of native articular cartilage. In: Guilak F, Butler DL, Goldstein SA, Mooney DJ, eds. Functional Tissue Engineering. New York, NY: Inc., Springer-Verlag; 2003:46-68.
1996	Hayashi S, Choi H-Y, Levine RS, Yang KH, King AI. Experimental and analytical study of knee fracture mechanisms in a frontal knee impact. In: Proceedings of the 40th Stapp Car Crash Conference. November 4-6, 1996; Albuquerque, NM. Warrendale, PA: Society of Automotive Engineers:161-171. SAE 962423.
1997	Atkinson PJ, Garcia JJ, Altiero NJ, Haut RC. The influence of impact interface on human knee injury: implications for instrument panel design and the lower extremity injury criterion. In: Proceedings of the 41st Stapp Car Crash Conference. November 13-14, 1997; Lake Buena Vista, FL. Warrendale, PA: Society of Automotive Engineers:167-180. SAE 973327.
2003	Meyer EG, Haut RC. The effect of impact angle on knee tolerance to rigid impacts. Stapp Car Crash J. 2003;47:1-19. SAE 2003-22-0001.
1998	Atkinson PJ, Newberry WN, Atkinson TS, Haut RC. A method to increase the sensitive range of pressure sensitive film. J Biomech. September 1998;31(9):855-859.
1998	Atkinson TS, Haut RC, Altiero NJ. Impact-induced fissuring of articular cartilage: an investigation of failure criteria. J Biomech Eng. April 1998;120(2):181-187.
1998	Garcia JJ, Altiero NJ, Haut RC. An approach for the stress analysis of transversely isotropic biphasic cartilage under impact load. J Biomech Eng. October 1998;120(5):608-613.
1998	Wu JZ, Herzog W, Epstein M. Effects of inserting a pressensor film into articular joints on the actual contact mechanics. J Biomech Eng. October 1998;120(5):655-659.
1998	Newberry WN, Garcia JJ, Mackenzie CD, Decamp CE, Haut RC. Analysis of acute mechanical insult in an animal model of post-traumatic osteoarthrosis. J Biomech Eng. December 1998;120(6):704-709.
1999	Torzilli PA, Grigiene R, Borrelli J Jr, Helfet DL. Effect of impact load on articular cartilage: cell metabolism and viability, and matrix water content. J Biomech Eng. October 1999;121(5):433-441.
2001	Atkinson PJ, Ewers BJ, Haut RC. Blunt injuries to the patellofemoral joint resulting from transarticular loading are influenced by impactor energy and mass. J Biomech Eng. 2001;123(3):293-295.
1997	Newberry WN, Zukosky DK, Haut RC. Subfracture insult to a knee joint causes alterations in the bone and in the functional stiffness of overlying cartilage. J Orthop Res. May 1997;15(3):450-455.
1999	Chen C-T, Burton-Wurster N, Lust G, Bank RA, Tekoppele JM. Compositional and metabolic changes in damaged cartilage are peak-stress, stress-rate, and loading-duration dependent. J Orthop Res. November 1999;17(6):870-879.
2001	Wang C. Digital Video Microscopy-Based Determination of Cartilage Inhomogeneity, Anisotropy and Tension -Compression Nonlinearity: Implications on Chondrocyte Environment [PhD thesis]. Columbia University; 2001.
2009	Canal Guterl C. Contact Mechanics of Articular Layers: 2D Strain Fields and Their Relation to Tissue Inhomogeneity [PhD thesis]. Columbia University; 2009.
1998	Atkinson PJ. A Stress-Based Damage Criterion to Predict Articular Joint Injury from Subfracture Insult [PhD thesis]. University of Michigan; 1998.
1998	Garcia JJ. A Transversely Isotropic Hypo-Elastic Biphasic Model of Articular Cartilage Under Impact Loading [PhD thesis]. East Lansing, MI: Michigan State University; 1998.
2001	Ewers BJ III. Correlations of Stress and Strain With Alterations in Cartilage and Underlying Subchondral Bone Following an Impact in an in Vivo Animal and an in Vitro Explant Model [PhD thesis]. University of Michigan; 2001.
2004	Meyer EG. Biomechanical Response of Tissues to Various Blunt Impact Orientations on the Knee [Master's thesis]. University of Michigan; 2004.
2005	Rundell SA. Investigation of the Acute Injury Response of Articular Cartilage in Vitro and in Vivo: Analysis of Various Therapeutic Treatments [Master's thesis]. East Lansing, MI: Michigan State University; 2005.
1998	Carey JPR. The Compressive Characteristics of the Glenoid Labrum [Master's thesis]. Queen's University; January 1998.
2005	Scott CC. Interferometry of Chondrocytes and Impact of Articular Cartilage [PhD thesis]. Houston, TX: Rice University; August 2005.
2008	Natoli RM. Impact Loading and Functional Tissue Engineering of Articular Cartilage [PhD thesis]. Houston, TX: Rice University; October 2008.
2012	Guo H. An Augmented Lagrangian Finite Element Formulation for the Biphasic Contact of Hydrated Soft Tissues in Physiological Joints [PhD thesis]. Troy, NY: Rensselaer Polytechnic Institute; July 2012.
2000	Kralovic BJ. The Effects of Patellofemoral Kinematics on Joint Congruence and Cartilage Stresses [Master's thesis]. Calgary, AB: University of Calgary; January 2000.
2013	Henak CR. Cartilage and Labrum Mechanics in the Normal and Pathomorphologic Human Hip [PhD thesis]. University of Utah; August 2013.