Observation on the development of osteochondrosis in young rats

A novel Osteoarthritis scoring system to separate typical OA joint degeneration from non-typical lesions in male Sprague Dawley rats

Objective

To develop a novel scoring system to characterize osteoarthritis-related degeneration distinct from spontaneous subchondral bone lesions observed in the tibia and femur of male Sprague Dawley rats.

Method

Knee joints from male rats following 12 weeks of a diet-induced obesity model of osteoarthritis (OA) were assessed. OA histopathological changes (OAHC) were assessed in the knee joints. All scores were evaluated using a modified Mankin score and a modified Osteoarthritis Research Society International histological score. OAHC were divided into 3 categories: (I) Typical OA score evaluating the changes in cartilage structure, cellularity, proteoglycan depletion, and tidemark integrity, (II) A novel Non-typical OA score evaluating cartilage integrity, and the size of local thickening, fragmentation and degeneration along the tidemark and the size and severity of the subchondral bone lesion, and (III) Total OA score comprised of both, the Typical and the Non-typical scores.

Results

Rats exposed to a high fat/high sucrose diet had higher Typical OA score compared to a control group (Chow). Non-typical and Total OA scores revealed no differences in the severity of the lesions between the HFS and the Chow group animals. All scoring systems had excellent intra- and inter-examiner reliability.

Conclusion

The spontaneous bone lesions observed in male Sprague Dawley rats can obscure the effect of the diet-induced obesity if the classical scoring system is used to assess joint degeneration. The newly proposed scoring method provides a reliable method to distinguish classical OA joint degeneration from spontaneous Non-typical lesions occurring in these rats.

Post-weaning high-fat diet results in growth cartilage lesions in young male rats

To determine if a high-fat diet (HF) from weaning would result in a pro-inflammatory state and affect joint cartilage, we fed male rats either HF or Chow diet post-weaning, and voluntary wheel exercise (EX) or cage only activity (SED) after 9 weeks of age. At 17 weeks body composition, plasma biomarkers and histomorphology scores of femoro-tibial cartilages of HF-SED, HF-EX, Chow-SED and Chow-EX groups were compared. Food intake and activity were not significantly different between groups. HF diet resulted in significantly higher weight gain, %fat, fat:lean ratio, and plasma leptin, insulin and TNFα concentrations, with significant interactions between diet and exercise. No abnormal features were detected in the hyaline articular cartilage or in the metaphyseal growth plate in all four groups. However, collagen type X- positive regions of retained epiphyseal growth cartilage (EGC) was present in all HF-fed animals and significantly greater than that observed in Chow-fed sedentary rats. Most lesions were located in the lateral posterior aspect of the tibia and/or femur. The severity of lesions was greater in HF-fed animals. Although exercise had a significantly greater effect in reducing adiposity and associated systemic inflammation in HF-fed rats, it had no effect on lesion incidence or severity. Lesion incidence was also significantly associated with indices of obesity and plasma markers of chronic inflammation. Clinically, EGC lesions induced by HF feeding in rats from very early in life, and possibly by insufficient activity, is typical of osteochondrosis in animals. Such lesions may be the precursor of juvenile osteochondritis dissecans requiring surgery in children/adolescents, conservative management of which could benefit from improved understanding of early changes in cellular and gene expression.

Alteration in articular cartilage of rat knee joints after spinal cord injury

OBJECTIVE

Mechanical forces are crucial for the maintenance of the morphologic and functional integrity of articular cartilage. The alteration of the articular cartilage after spinal cord injury (SCI) has been described in relation to a suppression of mechanical forces, since the joint is unloaded and restricted in movement. However, the morphological and biochemical characteristics of the cartilage after SCI are still poorly understood. We identified the localization of cartilage alterations after SCI and verified the influence of mechanical forces on the articular cartilage.

METHOD

A total of 32 Wistar rats were used. Sixteen animals underwent an SCI and 16 animals served as control. The articular cartilage of the knee joint was assessed, respectively, at 4, 8, 10, and 12 weeks after intervention by histochemical, histomorphometric, immunohistochemical, and biochemical analyses.

RESULTS

Cartilage thickness of spinal cord-injured knees decreased at the tibial and posterior femoral (FP) regions and increased at the anterior femoral (FA) region. Spinal cord injuries decreased the number of chondrocytes at the anterior regions and decreased the cartilage matrix staining only at the tibial regions. Immunolabeling to collagen type II was noted comparably in the superficial layer but noted weakly from the middle to deep layer. Collagen type I existed excessively at the cartilage surface and the pericellular regions.

CONCLUSION

Cartilage alterations after SCI would not be explained by only a suppression of mechanical forces by unloading and immobilization, but there may be influences on the cartilage in addition to the change in mechanical forces.

Unweighting accelerates tidemark advancement in articular cartilage at the knee joint of rats

Morphologic development of articular cartilage is influenced by biologic adaptation to functional demands. It has been theorized that intermittent stresses generated by load bearing and motion determine cartilage thickness by controlling advancement of the subchondral mineralization front. The mineralization front is comprised of two interfaces, the tidemark and chondroosseus junction, each of which advances through a different biologic process. This study was designed to evaluate the influence of one month of hind limb unweighting, with and without concurrent restriction of joint motion, on mineral apposition at the tidemark and vascular invasion at the chondroosseus junction in the knee joints of young adult rats. In mobile joints, hind limb unweighting induced a 2-fold increase in the tidemark mineral apposition rate (p = 0.0001) at the primary weight bearing region, resulting in a thinning of the uncalcified cartilage layer and a concurrent thickening of the calcified layer. Cast immobilization negated the effect of unweighting at the tidemark while it activated subchondral vascular encroachment into the calcified cartilage (p = 0.001). These findings suggest that cartilage thinning associated with the elimination of weight bearing is mediated through a different biological mechanism than cartilage loss associated with restriction of joint motion.

[Cartilage-damaging effect of quinolones]

The cartilage damaging effect of quinolones on juvenile experimental animals represents an unusual effect which is unknown, in this form, for other classes of substances. Since the damage is manifested at quite low doses the manufacturers and regulatory agencies have taken the consequence of declaring these preparations counter-indicated for children and adolescents up to the end of the growing period. Motor disturbances were observed only rarely, and only in individual cases, seen after therapeutic use of these drugs for the treatment of bacterial infections. In spite of long-term and sometimes high dose treatment with nalidixic acid during the 1960s and 1970s (the arthropathogenic effect on dogs was first described in 1977) no joint alterations could be demonstrated clinically or by x-ray. From this conclusion can be drawn that the effects seen in animal experiments under therapeutic conditions do not occur with the same intensity in humans. But, since many questions concerning this unusual toxic potential are still unanswered, quinolones continue to be counter-indicated for patients who are in the growing phase. Further experimental data and clinical observations are necessary to exclude with certainty the possible danger of joint damage to young patients. Even today it is still unclear whether the generally favourable clinical observations made with nalidixic acid also hold true for the other quinolones and whether differences in the possible risks exist. It will only become possible to define, with the necessary amount of certainty, indications for the use of quinolones in pediatrics when further information is available.

Osteochondrosis in fetuses of ewes overfed calcium

Ewes were fed ad libitum (up to maximum of 2.5 kg/day) a complete feed containing either 1.52% calcium (High Ca) or 0.59% calcium (Normal Ca) on a dry matter basis from day 50 of pregnancy, and the fetuses were removed at 133-135 days. Thyroid C cells, identified by indirect immunofluorescence, were more numerous (P less than 0.001) and plasma levels of 24,25-dihydroxycholecalciferol [24,25(OH)2D] were higher (P less than 0.09) in fetuses of High Ca ewes. These fetuses also had retarded cartilage differentiation in the proximal humeral epiphysis and metaphysis as well as transverse trabeculation in the epiphysis. These entities are two of the hallmarks of osteochondrosis. It was shown that feeding high dietary calcium to pregnant ewes caused osteochondrosis in their fetuses. Hypercalcitoninism and/or an adverse effect of supraphysiological levels of 24,25-dihydroxycholecalciferol may have been contributory to the skeletal abnormalities.