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Purpose@#Patellar dislocations have a range of causes. This study examined the results of treatment aimed at balancing soft tissues around the patella. @*Materials and Methods@#Thirty-two patellar dislocations in 28 patients (21 females and seven males) were examined. The mean patient age at the time of surgery was 11.5 years, and the mean follow-up period was 4.6 years. Dislocations were 19 chronic, six habitual, six congenital, and one acute. Soft tissue balancing surgery included lateral capsular release, medial capsular plication, and inferolateral transfer of the vastus medialis obliquus. Medial transfer of the patellar tendon, partial strip of the rectus femoris and patella tendon, and distal femoral osteotomy were also performed selectively. The preoperative Q angle, femoral anteversion angle, tibial external rotation angle, tibial tubercle-trochlear groove distance (TT-TG distance), mechanical femoral-tibial angle, and femoral trochlear dysplasia according to Dejour were measured, and the pre- and postoperative Lysholm–Tegner scores were used to analyze the clinical results. @*Results@#The mean preoperative Q angle, TT-TG distance, femoral anteversion angle, tibial external rotation angle, mechanical femoraltibia angle, and Lysholm–Tegner score were 9.3°, 15.5 mm, 25.6°, 30.4°, 3.0°, and 75.8, respectively. Eleven patients had systemic ligament laxity with a Beighton score of five or more. Twenty-two patients had femoral trochlear dysplasia: four type A (3 patients), 16 type B (15 patients), one type C (1 patient), and four type D (3 patients). Of the 32 cases, 28 were corrected successfully by the first operation. Of four cases of postoperative subluxation, three were corrected by the second operation, and one of them was corrected after a third operation. The last patient is currently being followed-up. The mean Lysholm–Tegner score improved to 85.6 after the operation. @*Conclusion@#Correcting all the causes of patella dislocation simultaneously is difficult. Nevertheless, satisfactory outcomes were obtained with soft tissue balancing surgery around the patella and a corrective osteotomy for an abnormal mechanical axis of the femur-tibia and torsion.
RÉSUMÉ
In the article, the name of one of the authors was incorrectly presented: Yoon Je Cho should read Yoon Jae Cho.
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In the article, the name of one of the authors was incorrectly presented: Yoon Je Cho should read Yoon Jae Cho.
RÉSUMÉ
PURPOSE: We designed this study to demonstrate the pathophysiology of hemophilic arthropathy (HA) by creating an animal model for determining the effect of repeated intraarticular bleeding in the synovium and articular cartilage. MATERIALS AND METHODS: 20 normal male New Zealand white rabbits were used for this study. We injected 1 ml of autologous blood from the ear vein of the rabbits into the right knee joint three timeds a week for 18 weeks, and we injected 1 ml of normal saline into the left knee joint three times a week for 18 weeks as a control group. We examined the pathologic changes by microscopy and plain X-ray, and we determined the mRNA expression of proinflammatory cytokines in the synovium of the HA by performing real time RT-PCR at the 11th week and 18th week after starting blood-injection. We also examined the GAG and the PGE2 production in cultured chondrocytes that were extracted from the HA knees. RESULTS: At the 11th week, after blood injection there were no remarkable gross changes in the HA knees and the control knee joints. At the 18th weeks, the experimental knee joints (HA knees) showed grossly swelling and degenerative changes by X-ray. The infiltration of inflammatory cells and the synovial proliferation in the HA knee joints were compared with that in the control knee joints by microscopic examination. The expressions of the mRNA of TNF-alpha, IL-1, MMP-1 and MMP-3 in the HA synovium were increased, as determined by real time RT- PCR, as compared with that in the control knee. In the cultured chondrocytes, the GAG production was decreased and the PGE2 was increased, but the MMP-1 and MMP-3 were not changed, as determined by ELISA. CONCLUSION: Our results showed that the GAG production of chondrocytes of the HA knees was decreased and there was increased PGE2, so that the cartilage degeneration by intra-articular bleeding was caused by the decreased metabolism of chondrocytes rather than by increased catabolism of the chondrocytes. We suggest that HA was associated with synovitis and cartilage degeneration, but decreased cartilage metabolism was the major mechanism of HA.