Hypothesis #1 (2/16/01) Trauma occurred causing the lameness The injury may be due to repeated trauma or it may be due to an acute episode. Certain breeds and faulty conformation may predispose the dog to stifle injury. In this case the dog is a pomeranian which is predisposed to medial patellar luxation. There are several conditions which may be caused by traumatic episodes in the dog: Tibial tuberosity avulsion may either be caused by one single traumatic episode or chronic episodes. In this case interference with the vasularity of the epiphyseal center leads to ischemia and necrosis and causes weakness and avulsion. This is most common in growing puppies and most notably in greyhounds. The injury occurs very near to the patella and is likely to cause stifle pain. Traumatic luxation of the patella may occur in any breed at any age. The history usually relates an episode of pain followed by lameness. In some dogs a grade 1 luxation results, while other animals seem to have a much more severe problem. The traumatic incident causes the lateral joint capsule to be stretched and then tear and separate the fibers within the joint capsule. The medial capsule then becomes contracted and thickened, restricting the patella in the medial luxated position. A breed predisposition to patellar luxation may exacerbate this condition. Trauma may also result in rupture to the patellar ligament also causing luxation of the patella. The misplacement of the patella will eventually result in arthritic changes. Injury to the cruciate ligament may also occur as a result of trauma. Dogs predisposed to this injury are often overweight, large breed dogs, and will display a cranial drawer sign. The most common mechanism of cranial cruciate ligament rupture is usually associated with a sudden rotation of the stifle with the joint in 20¡ to 50¡ of flexion. This may cause the cranial cruciate ligament to rupture in its midportion or, in the case of younger animals, to avulse a portion of its bony attachment. Another mechanism of injury to the cranial cruciate ligament is hyperextension. Therefore, as the stifle is hyperextended, the cranial cruciate ligament is the first structure to be subject to injury. Rupture of the caudal cruciate ligament alone is rare and is usually associated with severe trauma or dislocation of the stifle joint. Rupture of either or both cruciate ligaments produces marked instability of the stifle joint, resulting in pain and lameness. This instability also leads to progressive degenerative changes within the joint. Secondary osteoarthritis is almost always due to trauma as outlined above. There was damage to the condrocytes and/or cartilage matrix, which led to release of cytokines, resulting in inflammation. The cytokines released from the damaged chondrocytes also decreased the ability of those condrocytes to produce normal proteoglycans and cartilage. An ultimately catabolic activity exceeds anabolic activity that leads depletion of the cartilage matrix and initiation of cartilage degradation. The change in the cartilage matrix leads the swelling of the cartilage as a whole. The swollen cartilage is unable to withstand concussive force and further damage to the condrocytes and cartilage matrix ensues. As the cartilage is lost, the underlying articular surface degrades and there is an increased load over the focal areas of remaining cartilage and suncondral bone. As a whole the subcondral bone responds to the increase stress by thickening, which lead to decreased compliance and force absorption. Any remaining cartilage then experiences more stress. This whole process leads to a viscous cycle of joint damage and pain.