Objective: The treatment of cartilage defects with matrix-embedded autologous chondrocytes is a promising method to support the repair process. In this study we gathered quality parameters of collagen I matrices and embedded autologous chondrocytes at the time of transplantation We determined number, morphology, and distribution of matrix-embedded chondrocytes as well as their synthesis performance concerning sulphated glycosaminoglycans (sGAG) and collagen 1A1 and 2A1 mRNA levels.
Results: Chondrocytes were equidistantly distributed in the collagen matrices, and cell numbers ranged from 6 to 34 × 10(4) cells/g wet weight. Significant amounts of sGAG were detected in all of the investigated transplants but did not correlate with the number of cells within the respective transplants. Moreover, collagen I mRNA levels exceeded that of collagen II up to 17-fold. Collagen I and II ratio and sGAG amounts indicated significant interindividual differences of chondrocytes. The variation of transplant-associated sGAG levels could be attributed to the differential biosynthesis performance of chondrocytes.
Conclusions: These results confirm the vitality and the chondrocytic phenotype of matrix-embedded cells (CaRes(®)) with respect to sGAG synthesis. However, chondrocytes showed collagen I mRNA expression partially far exceeding that of collagen II, indicating a rather dedifferentiated cellular status. In addition, sGAG synthesis performance of different patients' chondrocytes varied significantly. Nevertheless, a 2-year clinical study of chondrocyte-seeded collagen matrices as investigated in this work delivered promising results. However, future studies are planned to determine markers for the regenerative potential of donor chondrocytes.
Keywords: articular cartilage; biomaterials; chondrocytes; repair; tissue engineering.