Quantification of Patellofemoral Contact Area Using MR Imaging, a Validation and Comparative Study

Abnormal joint contact mechanics are commonly speculated to be an initiating factor in cartilage degeneration. Magnetic resonance imaging (MRI) has been used as a non-invasive measurement tool for evaluating cartilage thickness, deformation and contact area in-vivo and in-vitro. However, specific evaluation of the sources of error and their magnitude are limited. This study evaluates the use of MRI and surface modeling with thin plate splines for the determination of joint contact area in a loaded patellofemoral joint. In the absence of a gold standard, a comparative measure with staining and multistation digital photogrammetry was used to evaluate the accuracy and repeatability of the MRI, digitization and modeling procedures. The technique presented provides a successful method to obtain surface geometry and contact area of the patellofemoral joint non-invasively and in the in-vivo, loaded condition using MRI.

Year	Entry
1992	Ateshian GA, Rosenwasser MP, Mow VC. Curvature characteristics and congruence of the thumb carpometacarpal joint: differences between female and male joints. J Biomech. June 1992;25(6):591-607.
1991	Ateshian G, Soslowsky L, Mow V. Quantitation of articular surface topography and cartilage thickness in knee joints using stereophotogrammetry. J Biomech. January 1991;24(8):761-776.
1982	Armstrong CG, Mow VC. Variations in the intrinsic mechanical properties of human articular cartilage with age, degeneration, and water content. J Bone Joint Surg. 1982;64A(1):88-94.
1972	Walker PS, Hajek JV. The load-bearing area in the knee joint. J Biomech. November 1972;5(6):581-589.
1999	Herberhold C, Faber S, Stammberger T, Steinlechner M, Putz R, Englmeier K, Reiser M, Eckstein F. In situ measurement of articular cartilage deformation in intact femoropatellar joints under static loading. J Biomech. December 1999;32(12):1287-1295.
1979	Scherrer PK, Hillberry BM. Piecewise mathematical representation of articular surfaces. J Biomech. 1979;12(4):301-311.
1980	Palmoski MJ, Colyer RA, Brandt KD. Joint motion in the absence of normal loading does not maintain normal articular cartilage. Arthritis Rheum. March 1980;23(3):325-334.
1996	Lichti DD. Constrained Finite Element Method Self-Calibration [Master's thesis]. Calgary, AB: University of Calgary; March 1996.
1995	Ronsky JL, Herzog W, Brown TD, Pedersen DR, Grood ES, Butler DL. In vivo quantification of the cat patellofemoral joint contact stresses and areas. J Biomech. August 1995;28(8):977-983.
1994	Ronsky JL. In-Vivo Quantification of Patellofemoral Joint Contact Characteristics [PhD thesis]. Calgary, AB: University of Calgary; 1994.
1981	Rushfeldt PD, Mann RW, Harris WH. Improved techniques for measuring in vitro the geometry and pressure distribution in the human acetabulum, I: ultrasonic measurement of acetabular surfaces, sphericity and cartilage thickness. J Biomech. 1981;14(4):253-260.
1983	Ghosh SK. A close-range photogrammetric system for 3-D measurements and perspective diagramming in biomechanics. J Biomech. 1983;16(8):667-674.
1995	Roos H, Adalberth T, Dahlberg L, Lohmander LS. Osteoarthritis of the knee after injury to the anterior cruciate ligament or meniscus: the influence of time and age. Osteoarthritis Cartilage. December 1995;3(3):261-267.
1997	Boyd SK. A 3D in-Situ Model for Patellofemoral Joint Contact Analysis in the Normal and Anterior Cruciate Ligament Deficient Knee [Master's thesis]. Calgary, AB: University of Calgary; April 1997.
2000	Eckstein F, Lemberger B, Stammberger T, Englmeier KH, Reiser M. Patellar cartilage deformation in vivo after static versus dynamic loading. J Biomech. July 2000;33(7):819-825.
1976	Goodfellow J, Hungerford DS, Zindel M. Patello-femoral joint mechanics and pathology, I: functional anatomy of the patello-femoral joint. J Bone Joint Surg. August 1976;58B(3):287-290.
1971	Greenwald AS, O'Connor JJ. The transmission of load through the human hip joint. J Biomech. December 1971;4(6):507-528.
1999	Powers MJ. Human Patellofemoral Kinematics and Related Joint Surface Geometry [Master's thesis]. Calgary, AB: University of Calgary; September 1999.
1973	Pond MJ, Nuki G. Experimentally-induced osteoarthritis in the dog. Ann Rheum Dis. July 1973;32(4):387-388.
1999	Cohen ZA, McCarthy DM, Kwak SD, Legrand P, Fogarasi F, Ciaccio EJ, Ateshian GA. Knee cartilage topography, thickness, and contact areas from MRI: in-vitro calibration and in-vivo measurements. Osteoarthritis Cartilage. January 1999;7(1):95-109.
1993	Söderkvist I, Wedin P-Å. Determining the movements of the skeleton using well-configured markers. J Biomech. December 1993;26(12):1473-1477.
1979	Armstrong CG, Bahrani AS, Gardner DL. In vitro measurement of articular cartilage deformations in the intact human hip joint under load. J Bone Joint Surg. July 1979;61A(5):744-755.
1997	Sah RL, Yang AS, Chen AC, Hant JJ, Halili RB, Yoshioka M, Amiel D, Coutts RD. Physical properties of rabbit articular cartilage after transection of the anterior cruciate ligament. J Orthop Res. March 1997;15(2):197-203.
1991	Athanasiou KA, Rosenwasser MP, Buckwalter JA, Malinin TI, Mow VC. Interspecies comparisons of in situ intrinsic mechanical properties of distal femoral cartilage. J Orthop Res. May 1991;9(3):330-340.
1985	Huiskes R, Kremers J, de Lange A, Woltring HJ, Selvik G, van Rens TJG. Analytical stereophotogrammetric determination of three-dimensional knee-joint geometry. J Biomech. 1985;18(8):559-570.
1994	Ateshian GA, Kwak SD, Soslowsky LJ, Mow VC. A stereophotogrammetric method for determining in situ contact areas in diarthrodial joints, and a comparison with other methods. J Biomech. January 1994;27(1):111-124.
1971	Radin EL, Paul IL. Response of joints to impact loading, I: in vitro wear. Arthritis Rheum. May–June 1971;14(3):356-362.
1980	Wismans J, Veldpaus F, Janssen J, Huson A, Struben P. A three-dimensional mathematical model of the knee-joint. J Biomech. 1980;13(8):677-685.
1983	Ahmed AM, Burke DL, Yu A. In-vitro of measurement of static pressure distribution in synovial joints, II: retropatellar surface. J Biomech Eng. August 1983;105(3):226-236.

Year

Entry

1992

Ateshian GA, Rosenwasser MP, Mow VC. Curvature characteristics and congruence of the thumb carpometacarpal joint: differences between female and male joints. J Biomech. June 1992;25(6):591-607.

1991

Ateshian G, Soslowsky L, Mow V. Quantitation of articular surface topography and cartilage thickness in knee joints using stereophotogrammetry. J Biomech. January 1991;24(8):761-776.

1982

Armstrong CG, Mow VC. Variations in the intrinsic mechanical properties of human articular cartilage with age, degeneration, and water content. J Bone Joint Surg. 1982;64A(1):88-94.

1972

Walker PS, Hajek JV. The load-bearing area in the knee joint. J Biomech. November 1972;5(6):581-589.

1999

Herberhold C, Faber S, Stammberger T, Steinlechner M, Putz R, Englmeier K, Reiser M, Eckstein F. In situ measurement of articular cartilage deformation in intact femoropatellar joints under static loading. J Biomech. December 1999;32(12):1287-1295.

1979

Scherrer PK, Hillberry BM. Piecewise mathematical representation of articular surfaces. J Biomech. 1979;12(4):301-311.

1980

Palmoski MJ, Colyer RA, Brandt KD. Joint motion in the absence of normal loading does not maintain normal articular cartilage. Arthritis Rheum. March 1980;23(3):325-334.

1996

Lichti DD. Constrained Finite Element Method Self-Calibration [Master's thesis]. Calgary, AB: University of Calgary; March 1996.

1995

Ronsky JL, Herzog W, Brown TD, Pedersen DR, Grood ES, Butler DL. In vivo quantification of the cat patellofemoral joint contact stresses and areas. J Biomech. August 1995;28(8):977-983.

1994

Ronsky JL. In-Vivo Quantification of Patellofemoral Joint Contact Characteristics [PhD thesis]. Calgary, AB: University of Calgary; 1994.

1981

Rushfeldt PD, Mann RW, Harris WH. Improved techniques for measuring in vitro the geometry and pressure distribution in the human acetabulum, I: ultrasonic measurement of acetabular surfaces, sphericity and cartilage thickness. J Biomech. 1981;14(4):253-260.

1983

Ghosh SK. A close-range photogrammetric system for 3-D measurements and perspective diagramming in biomechanics. J Biomech. 1983;16(8):667-674.

1995

Roos H, Adalberth T, Dahlberg L, Lohmander LS. Osteoarthritis of the knee after injury to the anterior cruciate ligament or meniscus: the influence of time and age. Osteoarthritis Cartilage. December 1995;3(3):261-267.

1997

Boyd SK. A 3D in-Situ Model for Patellofemoral Joint Contact Analysis in the Normal and Anterior Cruciate Ligament Deficient Knee [Master's thesis]. Calgary, AB: University of Calgary; April 1997.

2000

Eckstein F, Lemberger B, Stammberger T, Englmeier KH, Reiser M. Patellar cartilage deformation in vivo after static versus dynamic loading. J Biomech. July 2000;33(7):819-825.

1976

Goodfellow J, Hungerford DS, Zindel M. Patello-femoral joint mechanics and pathology, I: functional anatomy of the patello-femoral joint. J Bone Joint Surg. August 1976;58B(3):287-290.

1971

Greenwald AS, O'Connor JJ. The transmission of load through the human hip joint. J Biomech. December 1971;4(6):507-528.

1999

Powers MJ. Human Patellofemoral Kinematics and Related Joint Surface Geometry [Master's thesis]. Calgary, AB: University of Calgary; September 1999.

1973

Pond MJ, Nuki G. Experimentally-induced osteoarthritis in the dog. Ann Rheum Dis. July 1973;32(4):387-388.

1999

Cohen ZA, McCarthy DM, Kwak SD, Legrand P, Fogarasi F, Ciaccio EJ, Ateshian GA. Knee cartilage topography, thickness, and contact areas from MRI: in-vitro calibration and in-vivo measurements. Osteoarthritis Cartilage. January 1999;7(1):95-109.

1993

Söderkvist I, Wedin P-Å. Determining the movements of the skeleton using well-configured markers. J Biomech. December 1993;26(12):1473-1477.

1979

Armstrong CG, Bahrani AS, Gardner DL. In vitro measurement of articular cartilage deformations in the intact human hip joint under load. J Bone Joint Surg. July 1979;61A(5):744-755.

1997

Sah RL, Yang AS, Chen AC, Hant JJ, Halili RB, Yoshioka M, Amiel D, Coutts RD. Physical properties of rabbit articular cartilage after transection of the anterior cruciate ligament. J Orthop Res. March 1997;15(2):197-203.

1991

Athanasiou KA, Rosenwasser MP, Buckwalter JA, Malinin TI, Mow VC. Interspecies comparisons of in situ intrinsic mechanical properties of distal femoral cartilage. J Orthop Res. May 1991;9(3):330-340.

1985

Huiskes R, Kremers J, de Lange A, Woltring HJ, Selvik G, van Rens TJG. Analytical stereophotogrammetric determination of three-dimensional knee-joint geometry. J Biomech. 1985;18(8):559-570.

1994

Ateshian GA, Kwak SD, Soslowsky LJ, Mow VC. A stereophotogrammetric method for determining in situ contact areas in diarthrodial joints, and a comparison with other methods. J Biomech. January 1994;27(1):111-124.

1971

Radin EL, Paul IL. Response of joints to impact loading, I: in vitro wear. Arthritis Rheum. May–June 1971;14(3):356-362.

1980

Wismans J, Veldpaus F, Janssen J, Huson A, Struben P. A three-dimensional mathematical model of the knee-joint. J Biomech. 1980;13(8):677-685.

1983

Ahmed AM, Burke DL, Yu A. In-vitro of measurement of static pressure distribution in synovial joints, II: retropatellar surface. J Biomech Eng. August 1983;105(3):226-236.

Year	Entry
2002	Baker SN. In-Vivo Quantification of Patellofemoral Joint Contact Force Using a Mathematical Model [Master's thesis]. Calgary, AB: University of Calgary; January 2002.
2006	Cheng WTR. Registration for the in-Vivo Studies of Osteoarthritis Based on Magnetic Resonance Imaging [Master's thesis]. Calgary, AB: University of Calgary; April 2006.
2008	Küpper J. A Novel Measure of in-Vivo Knee Joint Laxity [Master's thesis]. Calgary, AB: University of Calgary; January 2008.

Year

Entry

2002

Baker SN. In-Vivo Quantification of Patellofemoral Joint Contact Force Using a Mathematical Model [Master's thesis]. Calgary, AB: University of Calgary; January 2002.

2006

Cheng WTR. Registration for the in-Vivo Studies of Osteoarthritis Based on Magnetic Resonance Imaging [Master's thesis]. Calgary, AB: University of Calgary; April 2006.

2008

Küpper J. A Novel Measure of in-Vivo Knee Joint Laxity [Master's thesis]. Calgary, AB: University of Calgary; January 2008.