Integrating a 250 mL-spinner flask with other stirred bench-scale cell culture devices: a mass transfer perspective |
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Authors: | Vallejos Jose R Brorson Kurt A Moreira Antonio R Rao Govind |
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Institution: | Center for Advanced Sensor Technology, Dept. of Chemical and Biochemical Engineering, University of Maryland, Baltimore County, Baltimore, MD 21250, USA. |
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Abstract: | The bioprocess development cycle is a complex task that requires a complete understanding of the engineering of the process (e.g., mass transfer, mixing, CO(2) removal, process monitoring, and control) and its affect on cell biology and product quality. Despite their widespread use in bioprocess development, spinner flasks generally lack engineering characterization of critical physical parameters such as k(L)a, P/V, or mixing time. In this study, mass transfer characterization of a 250-mL spinner flask using optical patch-based sensors is presented. The results quantitatively show the effect of the impeller type, liquid filling volume, and agitation speed on the volumetric mass transfer coefficient (k(L)a) in a 250-mL spinner flask, and how they can be manipulated to match mass transfer capability at large culture devices. Thus, process understanding in spinner flasks can be improved, and these devices can be seamlessly integrated in a rational scale-up strategy from cell thawing to bench-scale bioreactors (and beyond) in biomanufacturing. |
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Keywords: | bioprocess development mass transfer minibioreactors scale‐up spinner flasks |
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