Characterization of a model of osteoarthritis in the rabbit knee.

A new computerized method of histomorphometry was used to assess the development of osteoarthritis (OA) in a rabbit model. Three groups of 10 New Zealand White rabbits with closed epiphyses underwent unilateral anterior cruciate ligament transection (ACLT) and contralateral arthrotomy (sham). Groups were killed at 4, 8 and 12 weeks. At the time of death the femoral condyles were assessed grossly following the application of India ink using the following grading scale. Grade 1: intact surface; grade 2: minimal fibrillation; grade 3: overt fibrillation; grade 4: erosion. All histological sections were assessed using a color image analysis system. The mean thickness and area were measured for a defined cartilage region. The root mean square surface roughness (based on deviations from an idealized smooth surface) was calculated to assess the surface profile of the articular cartilage. The results were as follows. After ACLT, no full-thickness ulceration was noted at 4 weeks. Four of the medial femoral condyles at 8 weeks and six at 12 weeks showed full-thickness ulceration of the articular cartilage. The per cent cartilage area and cartilage thickness (ACLT divided by sham) in almost all regions showed decreases with time, indicating progressive erosion. The surface of the ACLT knees was much rougher than that of sham of the knees. These results demonstrate the usefulness of a quantitative methodology using a computerized video analysis system to assess the articular cartilage following ACLT in a rabbit model for the development of OA.

[1]  G. Dickson Methods of Calcified Tissue Preparation , 1984 .

[2]  G. Meachim Light microscopy of Indian ink preparations of fibrillated cartilage. , 1972, Annals of the rheumatic diseases.

[3]  A. Hulth,et al.  Experimental osteoarthritis in rabbits. Preliminary report. , 1970, Acta orthopaedica Scandinavica.

[4]  Roland W. Moskowitz,et al.  Osteoarthritis: Diagnosis and Medical/Surgical Management , 1992 .

[5]  J. J. Flynn,et al.  Joint changes following experimental partial and total patellectomy. , 1958, The Journal of bone and joint surgery. American volume.

[6]  J. Heath,et al.  Pig catabolin is a form of interleukin 1. Cartilage and bone resorb, fibroblasts make prostaglandin and collagenase, and thymocyte proliferation is augmented in response to one protein. , 1984, The Biochemical journal.

[7]  R. G. Johnson Transection of the canine anterior cruciate ligament: a concise review of experience with this model of degenerative joint disease. , 1986, Experimental pathology.

[8]  E. Evans,et al.  Experimental immobilization and remobilization of rat knee joints , 1960 .

[9]  G. Ville,et al.  Hypertrophic repair of articular cartilage in experimental osteoarthrosis. , 1983, Annals of the rheumatic diseases.

[10]  R. Moskowitz,et al.  Experimentally induced degenerative joint lesions following partial meniscectomy in the rabbit. , 1973, Arthritis and rheumatism.

[11]  E. H. Chiang,et al.  Quantitative assessment of cartilage surface roughness in osteoarthritis using high frequency ultrasound. , 1992, Ultrasound in medicine & biology.

[12]  M. Glimcher,et al.  Induction of osteoarthrosis in the rabbit knee joint. , 1980, Clinical orthopaedics and related research.

[13]  H. Muir,et al.  Biochemical changes in the cartilage of the knee in experimental and natural osteoarthritis in the dog. , 1976, The Journal of bone and joint surgery. British volume.

[14]  G. Ville,et al.  Histological cartilage changes in a rabbit model of osteoarthritis. , 1987, The Journal of rheumatology.

[15]  K. Brandt,et al.  Development and reversal of a proteoglycan aggregation defect in normal canine knee cartilage after immobilization. , 1979, Arthritis and rheumatism.

[16]  Dale M. Daniel,et al.  Knee Ligaments: Structure, Function, Injury, and Repair , 1991 .

[17]  K. Brandt,et al.  Osteoarthritic changes in canine articular cartilage, subchondral bone, and synovium fifty-four months after transection of the anterior cruciate ligament. , 2010, Arthritis and rheumatism.

[18]  K. Brandt,et al.  Synovitis and osteoarthritic changes in canine articular cartilage after anterior cruciate ligament transection. Effect of surgical hemostasis. , 1990, Arthritis and rheumatism.

[19]  D. Murray EXPERIMENTALLY INDUCED ARTHRITIS USING INTRA-ARTICULAR PAPAIN. , 1964, Arthritis and rheumatism.

[20]  G. Nuki,et al.  Experimentally-induced osteoarthritis in the dog. , 1973, Annals of the rheumatic diseases.

[21]  H. Dorfman,et al.  Biochemical and metabolic abnormalities in articular cartilage from osteo-arthritic human hips. II. Correlation of morphology with biochemical and metabolic data. , 1971, The Journal of bone and joint surgery. American volume.

[22]  R. Lillie,et al.  Histopathologic Technic and Practical Histochemistry , 1954 .