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Development of a scaleā€up strategy for Chinese hamster ovary cell culture processes using the <scp> k L a </scp> ratio as a direct indicator of gas stripping conditions

Authors :
Shinobu Kuwae
Yasuo Chuman
Tomohiro Doi
Takeshi Omasa
Hideyuki Kajihara
Takashi Kaminagayoshi
Source :
Biotechnology Progress. 36
Publication Year :
2020
Publisher :
Wiley, 2020.

Abstract

Herein, we described a scale-up strategy focused on the dissolved carbon dioxide concentration (dCO2 ) during fed-batch cultivation of Chinese hamster ovary cells. A fed-batch culture process for a 2000-L scale stainless steel (SS) bioreactor was scaled-up from similarly shaped 200-L scale bioreactors based on power input per unit volume (P/V). However, during the 2000-L fed-batch culture, the dCO2 was higher compared with the 200-L scale bioreactor. Therefore, we developed an alternative approach by evaluating the kL a values of O2 (kL a[O2 ]) and CO2 [kL a(CO2 )] in the SS bioreactors as a scale-up factor for dCO2 reduction. The kL a ratios [kL a(CO2 )/kL a(O2 )] were different between the 200-L and 2000-L bioreactors under the same P/V condition. When the agitation conditions were changed, the kL a ratio of the 2000-L scale bioreactor became similar and the P/V value become smaller compared with those of the 200-L SS bioreactor. The dCO2 trends in fed-batch cultures performed in 2000-L scale bioreactors under the modified agitation conditions were similar to the control. This kL a ratio method was used for process development in single-use bioreactors (SUBs) with shapes different from those of the SS bioreactor. The kL a ratios for the SUBs were evaluated and conditions that provided kL a ratios similar to the 200-L scale SS bioreactors were determined. The cell culture performance and product quality at the end of the cultivation process were comparable for all tested SUBs. Therefore, we concluded that the kL a ratio is a powerful scale-up factor useful to control dCO2 during fed-batch cultures.

Details

ISSN :
15206033 and 87567938
Volume :
36
Database :
OpenAIRE
Journal :
Biotechnology Progress
Accession number :
edsair.doi...........e4f5281ed669cd98527a37d4887f971a
Full Text :
https://doi.org/10.1002/btpr.3000