Correct rotational alignment of the femoral component is one of the most important elements in successful total knee arthroplasty. The surgical epicondylar axis is a well-known reliable landmark for a total knee arthorplasy. However, sometimes it is difficult for surgeon to define where a sulcus is, thus, hard to define a surgical epicondylar axis during a surgery. This Study evaluated the new reference of axis “Lateral Condylar Axis (LCA)” for the distal femur. The LCA is defined by the angle between the surgical epicondyalr axis and the Lateral Condylar Axis. To evaluate the consistency of this angle through ages, genders and femoral-tibia angle, this study also measured the angles between the surgical epicondylar and the anteroposterior asix and the surgical epicondylar and the posterior condaylar axis. By evaluating out the correlations and comparing the figure between measurements using the Student test, this study suggests that the Lateral Condylar Axis is a reliable landmark to properly rotate the femoral component and is easier to define during a surgery. The 59 knees out of 41 patients data was measured in 2011 – 2012.

In order to evaluate the relationship between acetabular and proximal femoral alignment in the initiation and evolution of osteoarthritis of the dysplastic hip, the acetabular and femoral angles were calculated geometrically from radiographs of 62 patients with pre-arthrosis and early osteoarthritis. The sum of the lateral opening angle of the acetabulum and the neck-shaft angle was defined as the lateral instability index (LII), and the sum of the anterior opening angle of the acetabulum and the anteversion angle of the femoral neck as the anterior instability index (AII). These two indices were compared in dysplastic and unaffected hips. A total of 22 unilateral hips with pre-arthrosis were followed for at least 15 years to determine whether the two indices were associated with the progression of osteoarthritis.

The LII of the affected hips (197.4 (sd 6.0)) was significantly greater than that of the unaffected hips (1830 (sd 6.9)). A follow-up study of 22 hips with pre-arthrosis showed that only the LII was associated with progression of the disease, and an LII of 196 was the threshold value for this progression.

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.

Introduction: Several types of “ Total Joint Regeneration System” were proposed where wide defect of cartilage expected to be regenerated under proper mechanical environment. Several types of therapeutic equipments for the Total Joint Regeneration System were designed and animal trial for the system was performed. Fundamental experiment evaluating cartilage generation under continuous sliding motion is also reported.

Material and methods: Three Japanese white rabbits (male, 12~15 weeks-old) weighing 3.0& #13199; and one beagle dog (male) weighing 15& #13199; were used for the trial operation for the Total Joint Regeneration System. A large full-thickness defect of the articular cartilage was made on both knees. And Internal-support type device was fixed to the knee of one side. The device is consisting of 2 parts (the screw and the T-bar). The screw was fixed in tibia from the fore part of ACL attachment to anterior part of the tibia. The rod of the T-bar was inserted into the inner hole of the screw. The upper part of the T-bar hold the femoral intercondyle and keep the regenerated portion in non-weight-bearing condition. Regeneration at the osteochondral defect was evaluated at 4 weeks postoperatively. [Cartilage generation by continuous sliding motion] A coccygeal vertebra of F344 rats (7weeks-old) was osteot-omized, and the distal part of the vertebrae was moved continuously in sliding motion using mobile external fixation.

Results and discussion: Walking conditions were comparatively good in all animals. Macroscopic observation shows better appearance of defected area in the supported side, however the apparent histological difference between control side and internal-support side could not be recognized in the rabbits cases because of inappropriate fitting of the devices. Hyaline cartilage tissue with better metachromatic matrix with safranin-O staining was observed on the supported side of dog knee. Result of fundamental experiment also showed the importance of setting mechanical environment where hyaline cartilage with layer structure similar to normal articular cartilage was produced by controlled sliding motion. We are now improving the design of the Total Joint Regeneration System refering to those results.