Summary:We measured the in situ biomechanical properties of knee joint cartilage from five species (bovine, canine, human, monkey, and rabbit) to examine the biomechanical relevance of animal models of human knee joint injuries and osteoarthritis. In situ biphasic creep indentation experiments were performed to simultaneously determine all three intrinsic material coefficients (aggregate modulus, Poisson's ratio, and permeability) of the cartilage as represented by the linear KLM biphasic model. In addition, we also assessed the effects of load bearing on these intrinsic properties at "high" and "low" weight-bearing regions on the distal femur. Our results indicate that significant differences exist in some of these material properties among species and sites. The aggregate modulus of the anterior patellar groove within each species is the lowest among all sites tested, and the permeability of the patellar groove cartilage is the highest and does not vary among species. Similarly, the Poisson's ratio in the patellar groove is the lowest in all species, except in the rabbit. These results lead to the conclusion that patellar groove cartilage can undergo greater and faster compression. Thus, under high compressive loads, the cartilage of the patellar groove surface can more rapidly compress to create a congruent patellofemoral joint articulation. For any given location, no differences were found in the aggregate modulus among all the species, and no correlation was found between aggregate modulus and thickness at the test site. Thus, in the process of selecting a suitable experimental animal model of human articular cartilage, it is essential to consider the significant interspecies differences of the mechanical properties.
Athletes, and an increasing number of middle aged and older people who want to participate in athletics, may question whether regular vigorous physical activity increases their risk of developing osteoarthritis. To answer this, the clinical syndrome of osteoarthritis must be distinguished from periarticular soft tissue pain associated with activity and from the development of osteophytes. Sports that subject joints to repetitive high levels of impact and torsional loading increase the risk of articular cartilage degeneration and the resulting clinical syndrome of osteoarthritis. However, moderate habitual exercise does not increase the risk of osteoarthritis; selected sports improve strength and mobility in older people and people with mild and moderate osteoarthritis. People with abnormal joint anatomy or alignment, previous significant joint injury or surgery, joint instability, above-average body weight, disturbances of joint or muscle innervation or inadequate muscle strength probably have increased risk of osteoarthritis. These people and those with early osteoarthritis can benefit from regular physical activity, but they should have a careful evaluation of their joint structure and function before participation. They should consider measures that decrease the intensity and frequency of impact and torsional loading of joints, including use of sports equipment that decreases joint impact loading, maintaining or improving muscle strength, tone, and general conditioning so that muscle contractions help protect joints from injury and high impact, and decreasing body weight.
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