The purpose of this study was to investigate clinical and radiological outcomes of multiple drilling in case of failed conservative treatment of juvenile osteochondritis dissecans in athletes. We treated 37 lesions from 30 athletic patients who failed conservative treatment for juvenile osteochondritis dissecans. Multiple drillings were done for 32 lesions and multiple drilling and bioabsorbable pin fixations were done for 5 lesions. Lysholm score, Hughston clinical scale were used for clinical evaluation before and last follow up of treatment. For radiologic evaluation we used magnetic resonance imaging at 3 months and 12 months after operation. Of all 37 lesions, 11 lesions were located on medial femoral condyle, 2 lesions on lateral femoral condyle and 24 lesions on trochlear groove. There were clinical and radiological improvement from Hughston scale after operative treatment. Twenty-five patients among 30 returned to the sports activity. There were no specific complications after operation. Multiple drilling and bio-absorbable pin fixation of juvenile athletic osteochondritis dissecans patients after failure of conservative treatment showed good clinical and radiologic results. So it would be helpful for juvenile athletic patients to return to sports activities.
Arthroplasty, Subchondral ; Athletes* ; Follow-Up Studies ; Humans ; Knee* ; Magnetic Resonance Imaging ; Osteochondritis Dissecans* ; Osteochondritis* ; Sports

Two types(A model and B model) of articular cartilage defect models were prepared by using adult New Zealand white rabbits. A model group was applied by drilling without through subchondral bone, whose right joint was repaired by composite scaffolds made by seed cell, gum-bletilla as well as Pluronic F-127, and left side was blank control. B model group was applied by subchondral drilling method, whose right joint was repaired by using composite scaffolds made by gum-bletilla and Pluronic F-127 without seed cells, and left side was blank control. Autogenous contrast was used in both model types. In addition, another group was applied with B model type rabbits, which was repaired with artificial complex material of Pluronic F-127 in both joint sides. 4, 12 and 24 weeks after operation, the animals were sacrificed and the samples were collected from repaired area for staining with HE, typeⅡcollagen immunohistochemical method, Alcian blue, and toluidine blue, and then were observed with optical microscope. Semi-quantitative scores were graded by referring to Wakitanis histological scoring standard to investigate the histomorphology of repaired tissue. Hyaline cartilage repairing was achieved in both Group A and Group B, with satisfactory results. There were no significant differences on repairing effects for articular cartilage defects between composite scaffolds made by seed cell, gum-bletilla and Pluronic F-127, and the composite scaffolds made by gum-bletilla and Pluronic F-127 without seed cell. Better repairing effects for articular cartilage defects were observed in groups with use of gum-bletilla, indicating that gum-bletilla is a vital part in composite scaffolds material.
Animals ; Arthroplasty, Subchondral ; Cartilage, Articular ; surgery ; Cells, Cultured ; Orchidaceae ; chemistry ; Plant Gums ; chemistry ; Poloxamer ; Rabbits ; Tissue Engineering ; Tissue Scaffolds