Magnetic resonance (MR) images of the posterior patellar hyaline articular cartilage were obtained in 23 subjects to determine if MR imaging could accurately demonstrate the patellar cartilage. Arthroscopy was used as the standard of reference. Three subjects were asymptomatic volunteers. In the remaining 20 who had patellofemoral pain, arthroscopy was performed before MR imaging in seven and afterward in 12; one did not undergo arthroscopy. MR imaging showed focal areas of swelling of the patellar cartilage, focal hypointensity, surface irregularity, areas of thinning, and areas of cartilage loss with exposure of subchondral bone. The surgical findings agreed with those from MR images in all seven patients who underwent arthroscopy before MR imaging and in ten of the 12 who underwent surgery afterward. MR imaging is an accurate means of examining the posterior patellar cartilage and should be considered as an alternative to diagnostic arthroscopy when chondromalacia patellae is suspected.
Fifteen patients with hemophilia, 14 of whom had hemophilic arthropathy, were examined with magnetic resonance (MR) imaging to determine if it could be used to assess hemophilic arthropathy, especially synovial hypertrophy and the status of the articular cartilage. Thirty-five joints of the appendicular skeleton were imaged. Four joints in two patients were clinically normal. Synovial hypertrophy was detected in 28 joints and appeared as areas of low to intermediate signal intensity on T1- and T2-weighted images, with foci of increased signal intensity on T2-weighted images (presumed to be due to areas of fluid or inflammation) in 16 joints. Abnormal articular cartilage was demonstrated in 26 joints; bone lesions, fluid collections, and joint space narrowing could also be seen. MR imaging appears to be useful in depicting the components of hemophilic arthropathy.
Thirty-three joints of the appendicular skeleton in 15 children with juvenile rheumatoid arthritis were examined with magnetic resonance (MR) imaging to determine if it could demonstrate synovial hypertrophy and status of the articular cartilage. Presumed synovial hypertrophy was seen in 13 joints as masses of varying sizes of low to intermediate signal intensity on T1- and T2-weighted images; sometimes foci of increased signal intensity, most likely due to fluid or inflammation, were seen on T2-weighted images. Probable abnormal articular cartilage was detected in ten joints, and MR imaging also demonstrated epiphyseal overgrowth, bone erosions, joint effusions, and joint space narrowing. Because MR imaging appears to provide an objective method of evaluating both synovial hypertrophy and status of articular cartilage, it may prove to be useful in monitoring progression of juvenile rheumatoid arthritis and response to therapy.
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