Healing of full-thickness articular cartilage defects treated with cultured autologous chondrogenic satellite cells isolated from chondral stem cell niche in rabbits

Abstract

BackgroundHealing of articular cartilage has remained in question with the use of conventional treatment modalities such as subchondral drilling and microfracture. As demonstrated in the past, adult stem cells retain promising clonogenicity. Therefore, we conducted this study to elucidate the effects of cultured autologous chondrogenic satellite cells (CACSCs) compared with subchondral drilling (SCD) for the repair of full-thickness articular cartilage defects. Materials and methodsWe examined CACSCs isolated from the knee of rabbits using flow cytometry for the expression of stemness and chondrocyte-specific factors. Subsequently, we created a full-thickness cartilage defect model with a diameter of 3 mm and depth of 2 mm on the articular surface of trochlear grooves in the left knee of 24 New Zealand white rabbits. Then we drilled subchondrally through the defect in all animals and stuffed the defects with 10-μg/cm2 collagen scaffolds. In the treatment group, we instilled CACSCs at 5 × 106 cells/mL in the collagen scaffold and collected samples on days 15, 30, and 45. ResultsThe CACSCs revealed significant expression of CD106, CD44, collagen type 2, and aggrecan. In conjunction with SCD, CACSCs improved healing of the articular cartilage defect, as evidenced by the formation of hyaline-like tissue grossly and histologically. The healed tissue also revealed a significant (P < 0.05) increase in the expression of collagen type 2 and aggrecan (by real-time polymerase chain reaction) during the experiment. ConclusionsIn conjunction with SCD, CACSCs may be considered to improve articular cartilage damage.