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Applying intensified design of experiments to mammalian cell culture processes

Verena Nold, Lisa Junghans, Lorenzo Bisgen, Raphael Drerup, Beate Presser, Ingo H. Gorr, Thomas Schwab, Bettina L. Knapp, Stefan Wieschalka

2021Engineering in Life Sciences14 citationsDOIOpen Access PDF

Abstract

The analysis of data collected using design of experiments (DoE) is the current gold standard to determine the influence of input parameters and their interactions on process performance and product quality. In early development, knowledge on the bioprocess of a new product is limited. Many input parameters need to be investigated for a thorough investigation. For eukaryotic cell cultures, intensified DoE (iDoE) has been proposed as efficient tool, requiring fewer bioreactor runs by introducing setpoint changes during the bioprocess. We report the first successful application of iDoE to mammalian cell culture, performing sequential setpoint changes in the growth phase for the selected input parameters temperature and dissolved oxygen. The process performance data were analyzed using ordinary least squares regression. Our results indicate iDoE to be applicable to mammalian bioprocesses and to be a cost-efficient option to inform modeling early on during process development. Even though only half the number of bioreactor runs were used in comparison to a classical DoE approach, the resulting models revealed comparable input-output relations. Being able to examine several setpoint levels within one bioreactor run, we confirm iDoE to be a promising tool to speed up biopharmaceutical process development.

Topics & Concepts

SetpointBioprocessBioreactorBiochemical engineeringProcess (computing)Process engineeringDesign of experimentsProcess developmentComputer scienceBiological systemEngineeringBiologyMathematicsArtificial intelligenceStatisticsChemical engineeringOperating systemBotanyViral Infectious Diseases and Gene Expression in InsectsProtein purification and stabilityOptimal Experimental Design Methods
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