Objective To investigate the growth, expansion, and metabolic characteristics of the human dermal fibroblasts cultured in a bioreactor with batch and medium exchange modes. Methods Human dermal fibroblasts separated from foreskin were seeded into a 1.5 liter CelliGen bioreactor with 5mg/ml of microcarriers. The cell growth, glucose consumption and lactate accumulation in both batch and medium exchange cultures were measured. Results The growth density of fibroblasts cultured in the bioreactor with medium-exchange mode reached 2.08×106 cell/ml, expande 29.7 folds, which was 1.81 times as high as that in batch culture. By comparison with the results obtained in T-flasks and spinners under the same medium-exchange conditions, the cell density in the bioreactor was 9.16 and 1.43 times as high as those in T-flasks and spinners respectively owing to that the limitation effect the attachment surface, nutrient exhaust, and by-product accumulation on the growth of fibroblasts in the bioreactor by using microcarriers, medium-exchange, as well as gas aeration was elimnated. Conclution The above results indicate that suspended cultures with microcarriers in bioreactors are an effective approach to rpovide large amounts of seeding cells for tissue engineering.
Citation: ZHOU Yan,DENG Ming an,HUA Ping,et al.. GROWTH AND EXPANSION OF HUMAN DERMAL FIBROBLASTS IN A BIOREACTOR. Chinese Journal of Reparative and Reconstructive Surgery, 2003, 17(2): 89-92. doi: Copy