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Increased rate of chondrocyte aggregation in a wavy-walled bioreactor

A novel wavy‐walled bioreactor designed to enhance mixing at controlled shear stress levels was used to culture chondrocytes in suspension. Chondrocyte aggregation in suspensions mixed at 30, 50, and 80 rpm was characterized in the wavy‐walled bioreactor and compared with that in conventional smooth...

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Bibliographic Details
Published in:Biotechnology and bioengineering 2004-12, Vol.88 (6), p.767-777
Main Authors: Bueno, Ericka M., Bilgen, Bahar, Carrier, Rebecca L., Barabino, Gilda A.
Format: Article
Language:English
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Summary:A novel wavy‐walled bioreactor designed to enhance mixing at controlled shear stress levels was used to culture chondrocytes in suspension. Chondrocyte aggregation in suspensions mixed at 30, 50, and 80 rpm was characterized in the wavy‐walled bioreactor and compared with that in conventional smooth‐walled and baffled‐walled spinner flask bioreactors. Aggregation was characterized in terms of the percentage of cells that aggregated over time, and aggregate size changes over time. The kinetics of chondrocyte aggregation observed in the bioreactors was composed of two phases: early aggregation between 0 and 2 h of culture, and late aggregation between 3 and 24 h of culture. At 50 rpm, the kinetics of early aggregation in the wavy‐walled bioreactor was approximately 25% and 65% faster, respectively, than those in the smooth‐walled and baffled‐walled spinner flask bioreactors. During the late aggregation phase, the kinetics of aggregation in the wavy‐walled bioreactor were approximately 45% and 65% faster, respectively, than in the smooth‐walled and baffled‐walled spinner flasks. The observed improved kinetics of chondrocyte aggregation was obtained at no cost to the cell survival rate. Results of computerized image analysis suggest that chondrocyte aggregation occurred initially by the formation of new aggregates via cell–cell interactions and later by the joining of small aggregates into larger cell clumps. Aggregates appeared to grow for only a couple of hours in culture before reaching a steady size, possibly determined by limitations imposed by the hydrodynamic environment. These results suggest that the novel geometry of the wavy‐walled bioreactor generates a hydrodynamic environment distinct from those traditionally used to culture engineered cartilage. Such differences may be useful in studies aimed at distinguishing the effects of the hydrodynamic environment on tissue‐engineered cartilage. Characterizing the wavy‐walled bioreactor's hydrodynamic environment and its effects on cartilage cell/tissue culture can help establish direct relationships between hydrodynamic forces and engineered tissue properties. © 2004 Wiley Periodicals, Inc.
ISSN:0006-3592
1097-0290
DOI:10.1002/bit.20261