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Abstract
Osteoarthritis (OA) leads to joint pain from intraarticular inflammation with articular cartilage erosion, deterioration of joint function and abnormal subchondral bone structure. Besides aging, chronic repetitive joint injury is a common risk factor in young individuals. Nevertheless, whether OA is associated with bone loss at other skeletal sites is unclear. Since OA-associated proinflammatory cytokines—some of which are osteoclastogenic factors—are often detected in the circulation, we hypothesized that the injury-induced knee OA could result in widespread osteopenia at bone sites distant to the injured knee. Here we performed anterior cruciate ligament transection (ACLT) to induce knee OA in one limb of female Sprague–Dawley rats and determined bone changes post-OA induction by micro-computed tomography and computer-assisted bone histomorphometry. We found that although OA modestly altered bone density, histomorphometric analyses revealed increases in bone resorption and osteoid production with impaired mineralization. The bone formation rate was also reduced in OA rats. In conclusions, ACLT in young growing rats induced microstructural defects in the trabecular portion of weight-bearing (tibia) and non-weight-bearing bones (L5 vertebra), in part by enhancing bone resorption and suppressing bone formation. This finding supports the increasing concern regarding the repetitive sport-related ACL injuries and the consequent bone loss.
Highlights
Osteoarthritis (OA) leads to joint pain from intraarticular inflammation with articular cartilage erosion, deterioration of joint function and abnormal subchondral bone structure
Most of the injuries involve the anterior cruciate ligament (ACL), and such repetitive injuries can increase the risk for developing knee OA, especially in women who have a higher incidence of ACL injury and OA5,6
In the OA group, rats were subjected to anterior cruciate ligament transection (ACLT) on their right knee joint, whereas in the sham-operated group, the rats were under the surgical methods similar to ACLT, except that ACLT transection was omitted
Summary
Osteoarthritis (OA) leads to joint pain from intraarticular inflammation with articular cartilage erosion, deterioration of joint function and abnormal subchondral bone structure. ACLT in young growing rats induced microstructural defects in the trabecular portion of weight-bearing (tibia) and non-weight-bearing bones (L5 vertebra), in part by enhancing bone resorption and suppressing bone formation. This finding supports the increasing concern regarding the repetitive sport-related ACL injuries and the consequent bone loss. Osteoarthritis (OA)—a major cause of joint pain and disability worldwide—is characterized by the progressive erosion of articular cartilage, with concomitant structural and functional changes of tissues around the joints, including synovium, meniscus, periarticular ligaments and subchondral b one[1] It often affects lower limb joints, e.g., knee, hip, foot, and a nkle[1]. The present OA model has been reportedly associated with significant elevation of local factors, such as prostaglandin E 2 (PGE2), and systemic osteoclastogenic cytokines, such as IL-1β, IL-6, and TNF-α11–13
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