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Pond, M. J.
1
; Nuki, G.
2
Experimentally-induced osteoarthritis in the dog
Ann Rheum Dis
. July 1973;32(4):387-388
Affiliations
1
University of Glasgow Veterinary School
2
The Centre for Rheumatic Diseases, Glasgow
Links
DOI:
10.1136/ard.32.4.387
PubMed:
4726075
PubMedCentral:
PMC1006123
Cited By (42)
Year
Entry
2001
Turner CH, Burr DB. Experimental techniques for bone mechanics. In: Cowin SC, ed.
Bone Mechanics Handbook
. 2nd ed. Boca Raton, FL: CRC Press; 2001:7-1–7-35.
1990
Radin EL, Burr DB, Fyhrie D, Brown TD, Boyd RD. Characteristics of joint loading as it applies to osteoarthrosis. In: Mow VC, Ratcliffe A, Woo SL-Y, eds.
Biomechanics of Diarthrodial Joints
. Vol 1. New York, NY: Springer-Verlag; 1990:437-451.
2011
Guilak F. Biomechanical factors in osteoarthritis.
Best Pract Res Clin Rheumatol
. December 2011;25(6):815-823.
2023
Xu L, Hu YJ, Peng Y, Wang Z, Wang J, Lu WW, Tang B, Guo XE. Early zoledronate treatment inhibits subchondral bone microstructural changes in skeletally-mature, ACL-transected canine knees.
Bone
. February 2023;167:116638.
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.
1997
Torzilli PA, Grigiene R, Huang C, Friedman SM, Doty SB, Boskey AL, Lust G. Characterization of cartilage metabolic response to static and dynamic stress using a mechanical explant test system.
J Biomech
. January 1997;30(1):1-9.
1998
Herzog W, Diet S, Suter E, Mayzus P, Leonard TR, Müller C, Wu JZ, Epstein M. Material and functional properties of articular cartilage and patellofemoral contact mechanics in an experimental model of osteoarthritis.
J Biomech
. December 1998;31(12):1137-1145.
1976
McDevitt CA, Muir H. Biochemical changes in the cartilage of the knee in experimental and natural osteoarthritis in the dog.
J Bone Joint Surg
. February 1976;58B(1):94-103.
1994
Setton LA, Mow VC, Müller FJ, Pita JC, Howell DS. Mechanical properties of canine articular cartilage are significantly altered following transection of the anterior cruciate ligament.
J Orthop Res
. July 1994;12(4):451-463.
1994
Guilak F, Ratcliffe A, Lane N, Rosenwasser MP, Mow VC. Mechanical and biochemical changes in the superficial zone of articular cartilage in canine experimental osteoarthritis.
J Orthop Res
. July 1994;12(4):474-484.
1995
Setton LA, Mow VC, Howell DS. Mechanical behavior of articular cartilage in shear is altered by transection of the anterior cruciate ligament.
J Orthop Res
. July 1995;13(4):473-482.
1996
Farquhar T, Xia Y, Mann K, Bertram J, Burton-Wurster N, Jelinski L, Lust G. Swelling and fibronectin accumulation in articular cartilage explants after cyclical impact.
J Orthop Res
. May 1996;14(3):417-423.
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.
1998
Kawcak CE.
Effects of Loading on Subchondral Bone of the Equine Carpal and Metacarpophalangeal Joints
[PhD thesis]. Colorado State University; 1998.
2013
Fischenich KM.
Evaluation of Meniscal Changes in Two Models of Knee Osteoarthritis: Traumatic Loading and Modified Transection
[Master's thesis]. Colorado State University; 2013.
1993
Setton LA.
Effects of Intrinsic Viscoelasticity and Ion-Induced Swelling on the Mechanical Behavior of Articular Cartilage: Theory and Experiments
[PhD thesis]. Columbia University; 1993.
1997
Kwak SKD.
Experimental and Mathematical Investigation of the Human Knee: Anatomy, Kinematics and Contact
[PhD thesis]. Columbia University; 1997.
2008
Ng KW.
Biomimetic Engineered Cartilage: Recreating the in Vivo Collagen Network and Depth-Dependent Inhomogeneity
[PhD thesis]. Columbia University; 2008.
2017
Silverstein AM.
Development of Biofidelic Culture Models of Osteoarthritis
[PhD thesis]. Columbia University; 2017.
2021
Hu YJ.
Microstructure and Biomechanics of the Subchondral Bone in the Development of Knee Osteoarthritis
[PhD thesis]. Columbia University; 2021.
2017
Adebayo OO.
Biomechanics of Cartilage-Bone Crosstalk in Load-Induced Osteoarthritis
[PhD thesis]. Ithaca, NY: Cornell University; August 2017.
2018
Holyoak DT.
Role of in Vivo Mechanical Loading in the Pathology, Treatment, and Prevention of Osteoarthritis
[PhD thesis]. Ithaca, NY: Cornell University; December 2018.
2020
Ziemian SN.
The Roles of Subchondral Bone Mass, Stiffness, and Remodeling in Load-Induced Osteoarthritis Development
[PhD thesis]. Ithaca, NY: Cornell University; August 2020.
2018
Huynh NPT.
Bioinformatics and Molecular Approaches for the Development of Biological Artificial Cartilage
[PhD thesis]. Duke University; 2018.
2011
Moodie J.
Destabilisation of the Medial Meniscus: Imaging and Mechanics of a Murine Surgical Osteoarthritis Model
[PhD thesis]. Imperial College London; August 2011.
1990
Sah RL-Y.
Biophysical Regulation of Matrix Systhesis, Assembly, and Degradation in Dynamically Compressed Calf Cartilage
[PhD thesis]. Cambridge, MA: Massachusetts Institute of Technology; 1990.
1996
Quinn TM.
Articular Cartilage: Matrix Assembly, Mediation of Chondrocyte Metabolism, and Response to Compression
[PhD thesis]. Cambridge, MA: Massachusetts Institute of Technology; May 1996.
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.
2017
Meinert AC.
Hydrogels and Bioreactors for Cartilage Research and Functional Tissue Engineering
[PhD thesis]. Queensland University of Technology; 2017.
1997
Stevens SS.
Mechanical Regulation of Articular Cartilage Development, Maintenance and Degeneration
[PhD thesis]. Stanford University; August 1997.
2010
Scanlan SF.
Understanding the Interaction Between Graft Placement, Gait Mechanics, and Cartilage Morphology as a Pathway to Osteoarthristis in the ACL Reconstructed Knee
[PhD thesis]. Stanford University; December 2010.
1996
Hasler EM.
In-Vivo Knee Loading Before and After ACL Transection in an Animal Model
[PhD thesis]. Calgary, AB: University of Calgary; September 1996.
2000
Kralovic BJ.
The Effects of Patellofemoral Kinematics on Joint Congruence and Cartilage Stresses
[Master's thesis]. Calgary, AB: University of Calgary; January 2000.
2001
Moss RT.
Quantification of Patellofemoral Contact Area Using MR Imaging, a Validation and Comparative Study
[Master's thesis]. Calgary, AB: University of Calgary; September 2001.
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.
2002
Couillard S.
Cartilage Deformation of the Feline Patellofemoral Joint Obtained from Laser Scanning
[Master's thesis]. Calgary, AB: University of Calgary; April 2002.
2004
Clark AL.
Heterogeneous Patellofemoral Articular Cartilage Mechanical and Biological Response to Compression and Anterior Cruciate Ligament Transection
[PhD thesis]. Calgary, AB: University of Calgary; April 2004.
2004
Doschak MR.
Bisphosphonate Antiresorptive Drug Use in a Rabbit Model of Osteoarthritis
[PhD thesis]. Calgary, AB: University of Calgary; April 2004.
2010
Tapper JE.
Dynamic in Vivo Kinematics in an Ovine Stifle Joint Model of Osteoarthritis
[PhD thesis]. Calgary, AB: University of Calgary; March 2010.
2013
Lockwood KA.
Long-Term Changes in a Non-Invasive Murine Model of Post-Traumatic Osteoarthritis
[Master's thesis]. Davis, University of California; 2013.
1999
Chang DG.
Structure and Function Relationships of Articular Cartilage in Osteoarthritis
[PhD thesis]. San Diego (UCSD), University of California; 1999.
2020
Valdez EE.
Knee Articular Cartilage Material Properties Estimation Through FEA
[Master's thesis]. University of Vermont; August 2020.