[Proliferative potential of nasal septum chondrocytes for in vitro culture of cartilage transplants].

BACKGROUND

Recent developments in the field of tissue engineering provide novel approaches in tissue repair and reconstructive surgery using the patients own cells. Isolated chondrocytes form new cartilage when seeded in appropriate scaffolds. Usually the number of cells from a cartilage biopsy is not sufficient. The present study investigates the potential of cell amplification of human nasal chondrocytes in monolayer culture.

METHODS

Nasal cartilage cells from seven healthy patients with age between 16 and 60 years were enzymatically isolated with collagenase and hyaluronidase. Subsequently, cells were seeded in 75 cm2 culture flasks. After confluency, cultures were trypsinized, counted, and again seeded at a concentration of 5 x 10(4) cells/ml. Dulbecco's MEM supplemented with 10% FCS was used as culture medium.

RESULTS

After enzymatic digest, an average of 5 x 10(5) cells per patient were isolated. At least 85% of the cells were vital. Within four to eight weeks, the cells number was increased 10(3) to 10(5) fold. No correlation between the proliferative activity and the age of the patient was observed in this study.

DISCUSSION

The observed increase in cell number resembles about 10 to 20 cell doublings. Although the doubling time appears to be longer during the second month, no definite limit of proliferative activity was seen during the time of study. Proliferating chondrocytes in monolayer lose their tissue-specific phenotype. For the de novo formation of cartilage transplants, redifferentiation of the expanded cells has to be stimulated.

CONCLUSION

This study shows that human nasal chondrocytes can be expanded sufficiently in monolayer for the engineering of autologous cartilage transplants.