Medial meniscus tear has been proposed as a potential etiology of spontaneous osteonecrosis of the knee (SONK). Disruption of collagen fibers within the meniscus causes meniscal extrusion, which results in alteration in load distribution in the knee. A recent study has demonstrated high incidence of medial meniscus extrusion in the knee with SONK. Our purpose was to determine whether the extent of medial meniscus extrusion correlates with the severity of SONK in the medial femoral condyle.

Anteroposterior and lateral knee radiographs were taken with the patients standing. Limb alignment was expressed as the femorotibial angle (FTA) obtained from the anteroposterior radiograph. The stage of progression of SONK was determined according to the radiological classification system described by Koshino. After measurement of anteroposterior, mediolateral, and superoinferior dimensions of the hypointense T1 signal intensity lesion of MRI, its ellipsoid volume was calculated with the three dimensions. Meniscal pathology (degeneration, tear, and extrusion) were also evaluated by MRI.

Of the 18 knees with SONK, we found 5 knees at the radiological stage 2 lesions, 9 knees at the stage 3, and 4 knees at the stage 4. Whereas the ellipsoid volume of SONK lesion significantly increased with the stage progression, the volume was significantly greater at stage 4 than stage 2 or 3. All the 18 knees with SONK in the present study showed substantial extrusion (> 3mm) and degeneration of the medial meniscus. While medial meniscal extrusion increased with the stage progression, medial meniscus was significantly extruded at stage 3 or 4 compared with stage 2. A significant increase in FTA was found with the stage progression. FTA was significantly greater at stage 4 than stage 2 or 3. Multiple linear regression analysis revealed that medial meniscus extrusion and FTA were useful predictors of the volume of SONK lesion.

This study has clearly shown a significant correlation between the extent of medial meniscus extrusion and the stage and volume of SONK lesion. Degeneration and tears of the medial meniscus in combination with extrusion may result in loss of hoop stress distribution in the medial compartment, which could increase the load in the medial femoral condyle. In addition to meniscal pathology, knee alignment can influence load distribution in the medial compartment biomechanically. Multiple linear regression analysis indicates that an increase in FTA concomitant with a greater extrusion of medial meniscus could result in greater lesion and advanced radiological stage of SONK. Taken together, alteration in compressive force transmission through the medial compartment by meniscus extrusion and varus alignment could develop subchondral insufficiency fractures in the medial femoral condyle, which is considered to be one of the main contributing factors to SONK development.

There was high association of medial meniscus extrusion and FTA with the radiological stage and volume of SONK lesion. Increased loading in the medial femoral condyle with greater extrusion of medial meniscus and varus alignment may contribute to expansion and secondary osteoarthritic changes of SONK lesion.

Introduction: Fibroin sponge is purified silk protein from which high-strength gel sponge can be produced. The purified fibroin sponge causes no immune response. This study evaluates unique performances of the fibroin sponge for articular-cartilage regeneration, and mechanical properties of regenerated cartilage were also measured.

Methods: Refined silk yarn was dissolved in 9M lithium bromide aqueous solutions, and was frozen in −20& #8451 freezer for 12 hours. Hydrogel sponge was formed under the room temperature. Articular cartilage slices were taken from the proximal humerus, distal femur and proximal tibia of 4-week-old Japanese white rabbits. The cartilage slices cut into small pieces and were digested with 0.25% trypsin in DMEM containing antibiotics for 30 min at 37& #8451. After rinsing with Tyrode’s balanced solution and centrifuging at 180 G for 5 min, the chondrocytes were isolated with 0.25% collagenase for 8 h at 37& #8451. These cells were harvested and inoculated into the fibroin sponge. The constructs of the chondrocytes and the fibroin sponge were cultured in DMEM containing 10& #65285 FCS and 50mL L-ascorbate for 4weeks. Indentation test and dynamic visco-elastic measurement were carried out for these constructs.

Results and discussion: Cell density of the inoculated chondrocytes was increased to about five times as much as initial volume. This regenerated tissue was intensely stained with safranin-O fast green and showed a meta-chromatic reaction. This also stained positively with immunostain for type & #8545 collagen, but negatively with immunostain for type & #8544 collagen. Mechanical tests showed that time constants of compressive creep and E’ values were increased with cultivation days, and the peak value and frequency of tan& #948 shifted to a lower amount. The change in dynamic visco-elastic properties of the regenerated cartilage is caused by synthesis of extracellular matrix.