Heiko Brandt scite author profile

Continuous processing is the future production method for monoclonal antibodies (mAbs). A fully continuous, fully automated downstream process based on disposable equipment was developed and implemented inside the MoBiDiK pilot plant. However, a study evaluating the comparability between batch and continuous processing based on product quality attributes was not conducted before. The work presented fills this gap comparing both process modes experimentally by purifying the same harvest material (side‐by‐side comparability). Samples were drawn at different time points and positions in the process for batch and continuous mode. Product quality attributes, product‐related impurities, as well as process‐related impurities were determined. The resulting polished material was processed to drug substance and further evaluated regarding storage stability and degradation behavior. The in‐process control data from the continuous process showed the high degree of accuracy in providing relevant process parameters such as pH, conductivity, and protein concentration during the entire process duration. Minor differences between batch and continuous samples are expected as different processing conditions are unavoidable due to the different nature of batch and continuous processing. All tests revealed no significant differences in the intermediates and comparability in the drug substance between the samples of both process modes. The stability study of the final product also showed no differences in the stability profile during storage and forced degradation. Finally, online data analysis is presented as a powerful tool for online‐monitoring of chromatography columns during continuous processing.

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Efficient Robust Economic Nonlinear Model Predictive Control of an Industrial Batch Reactor

Lucia

Andersson

Brandt

et al. 2014

IFAC Proceedings Volumes

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Application of Model-based Online Monitoring and Robust Optimizing Control to Fed-Batch Bioprocesses

et al. 2020

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Scheme for Time-optimal Operation of Semi-batch Emulsion Polymerization Reactors

Pelz

Brandt

Finkler

et al. 2012

IFAC Proceedings Volumes

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Heiko Brandt

Handling uncertainty in economic nonlinear model predictive control: A comparative case study

Side‐by‐side comparability of batch and continuous downstream for the production of monoclonal antibodies

Efficient Robust Economic Nonlinear Model Predictive Control of an Industrial Batch Reactor

Application of Model-based Online Monitoring and Robust Optimizing Control to Fed-Batch Bioprocesses

Scheme for Time-optimal Operation of Semi-batch Emulsion Polymerization Reactors

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