Repair of Osteochondral Defect Using Grafts of Cultured Chondrocytes in Rabbits.
- Author:
Eun Woo LEE
;
Soo Yong KANG
;
Eui Chan JANG
;
Ki Hwan KIM
- Publication Type:In Vitro ; Original Article
- Keywords:
Osteochondral defect;
Fibrin glue;
Chondrocyte culture;
Transplantation
- MeSH:
Allografts;
Cartilage;
Cartilage, Articular;
Chondrocytes*;
Fibrin Tissue Adhesive;
Hyaline Cartilage;
Joints;
Knee Joint;
Rabbits*;
Transplantation;
Transplants*
- From:The Journal of the Korean Orthopaedic Association
1997;32(2):464-471
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
Chondrocytes isolated from the articular cartilage of rabbit knee joint were cultured in vitro within fibrin glue carrier for 2 weeks. Histochemical and electromicroscopical approaches were used to study chondrocytes behavior and phenotypic expression. In vitro study, chondrocyte assumed a rounded morphology, accumulated metachromatic matrix and took on the cytological characteristics of in vivo cartilage cells. Allogenic cultured chondrocyte in fibrin glue was transplanted into osteochondral defect in rabbit joint. The contralateral knee joint served as a control in which the defect was left empty. This in vivo study was performed for the investigation of the chondrogenic potential of cultured chondrocytes embedded in fibrin glue. Grafted defects was filled with cartilage in gross finding, repaired tissue consisted of differentiated chondrocytes and matrix resumed that of hyaline cartilage. At sixteen week after transplantation, subchondral region was partially transformed into bone without loss of overlying articular cartilage, but in control group, defect did not heal successfully. Repaired articular cartilage was thicker than host cartilage and tide mark was not shown up to 24 weeks. Some of repaired tissue was degraded partially. These results suggest that fibrin glue provides suitable environment for differentiation of chondrocyte and allograft of cultured chondrocyte in fibrin glue transplanted into large osteochondral defect improves cartilage repair.
