Online monitoring and control of upstream cell culture process using 1D and 2D-LC with SegFlow interface

doi:10.1002/bit.27873

. 2021 Sep;118(9):3593-3603.

doi: 10.1002/bit.27873. Epub 2021 Jul 12.

Online monitoring and control of upstream cell culture process using 1D and 2D-LC with SegFlow interface

Letha Chemmalil¹, Dhanuka P Wasalathanthri¹, Xin Zhang², June Kuang², Chun Shao¹, Robin Barbour³, Sohil Bhavsar², Tanushree Prabhakar⁴, Ryan Knihtila⁵, Jay West¹, Neha Puri¹, Kyle McHugh⁶, Matthew S Rehmann⁶, Qin He⁶, Jianlin Xu⁶, Michael C Borys⁶, Julia Ding¹, Zhengjian Li²

Affiliations

¹ BMS Process Development Analytical Group, Devens, Massachusetts, USA.
² BMS Analytical Development & Analytical Attribute Science in Biologics, Devens, Massachusetts, USA.
³ University of Rochester, Rochester, New York, USA.
⁴ BMS Manufacturing Science & Technology, Devens, Massachusetts, USA.
⁵ Dragonfly Therapeutics, Waltham, Massachusetts, USA.
⁶ BMS Process Development Group, Devens, Massachusetts, USA.

PMID: 34185315
DOI: 10.1002/bit.27873

Online monitoring and control of upstream cell culture process using 1D and 2D-LC with SegFlow interface

Letha Chemmalil et al. Biotechnol Bioeng. 2021 Sep.

. 2021 Sep;118(9):3593-3603.

doi: 10.1002/bit.27873. Epub 2021 Jul 12.

Authors

Affiliations

¹ BMS Process Development Analytical Group, Devens, Massachusetts, USA.
² BMS Analytical Development & Analytical Attribute Science in Biologics, Devens, Massachusetts, USA.
³ University of Rochester, Rochester, New York, USA.
⁴ BMS Manufacturing Science & Technology, Devens, Massachusetts, USA.
⁵ Dragonfly Therapeutics, Waltham, Massachusetts, USA.
⁶ BMS Process Development Group, Devens, Massachusetts, USA.

PMID: 34185315
DOI: 10.1002/bit.27873

Abstract

The biopharmaceutical industry is transitioning from currently deployed batch-mode bioprocessing to a highly efficient and agile next-generation bioprocessing with the adaptation of continuous bioprocessing, which reduces capital investment and operational costs. Continuous bioprocessing, aligned with FDA's quality-by-design platform, is designed to develop robust processes to deliver safe and effective drugs. With the deployment of knowledge-based operations, product quality can be built into the process to achieve desired critical quality attributes (CQAs) with reduced variability. To facilitate next-generation continuous bioprocessing, it is essential to embrace a fundamental shift-in-paradigm from "quality-by-testing" to "quality-by-design," which requires the deployment of process analytical technologies (PAT). With the adaptation of PAT, a systematic approach of process and product understanding and timely process control are feasible. Deployment of PAT tools for real-time monitoring of CQAs and feedback control is critical for continuous bioprocessing. Given the current deficiency in PAT tools to support continuous bioprocessing, we have integrated Infinity 2D-LC with a post-flow-splitter in conjunction with the SegFlow autosampler to the bioreactors. With this integrated system, we have established a platform for online measurements of titer and CQAs of monoclonal antibodies as well as amino acid analysis of bioreactor cell culture.

Keywords: 2D-LC; SegFlow; continuous bioprocessing; monoclonal antibody (mAb); process analytical technology (PAT); quality by design (QbD).

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Cited by

Integrated SegFlow, µSIA, and UPLC for Online Sialic Acid Quantitation of Glycoproteins Directly from Bioreactors.
Chemmalil L, Kulkarni T, Raman M, Singh P, Qian Y, Chumsae C, McHugh K, Huang Z, Hodgman E, Borys MC, Ding J, Li G, Leone A. Chemmalil L, et al. Eng Life Sci. 2025 Jan 23;25(1):e202400031. doi: 10.1002/elsc.202400031. eCollection 2025 Jan. Eng Life Sci. 2025. PMID: 39850488 Free PMC article.

References

REFERENCES

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1. Alper, J. (2019). Continuous manufacturing for the modernization of pharmaceutical production. Proceedings of a workshop, National Academies of Sciences, Engineering, and Medicine; Division on Earth and Life Studies; Board on Chemical Sciences and Technology. Washington, DC: National Academies Press. https://doi.org/10.17226/25340
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1. Bhambure, R. , Kumar, K. , & Rathore, A. S. (2011). High-throughput process development for biopharmaceutical drug substances. Trends in Biotechnology, 29(3), 127-135. https://doi.org/10.1016/j.tibtech.2010.12.001
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[1] Allison, G. , Cain, Y. T. , Cooney, C. , Garcia, T. , Bizjak, T. G. , Holte, O. , Jagota, N. , Komas, B. , Korakianiti, E. , Kourti, D. , Madurawe, R. , Morefield, E. , Montgomery, F. , Nasr, M. , Randolph, W. , Robert, J. L. , Rudd, D. , & Zezza, D. (2015). Regulatory and quality considerations for continuous manufacturing. Journal of Pharmaceutical Sciences, 104(3), 803-812. https://doi.org/10.1002/jps.24324

[2] Allison, G. , Cain, Y. T. , Cooney, C. , Garcia, T. , Bizjak, T. G. , Holte, O. , Jagota, N. , Komas, B. , Korakianiti, E. , Kourti, D. , Madurawe, R. , Morefield, E. , Montgomery, F. , Nasr, M. , Randolph, W. , Robert, J. L. , Rudd, D. , & Zezza, D. (2015). Regulatory and quality considerations for continuous manufacturing. Journal of Pharmaceutical Sciences, 104(3), 803-812. https://doi.org/10.1002/jps.24324

[3] Alper, J. (2019). Continuous manufacturing for the modernization of pharmaceutical production. Proceedings of a workshop, National Academies of Sciences, Engineering, and Medicine; Division on Earth and Life Studies; Board on Chemical Sciences and Technology. Washington, DC: National Academies Press. https://doi.org/10.17226/25340

[4] Alper, J. (2019). Continuous manufacturing for the modernization of pharmaceutical production. Proceedings of a workshop, National Academies of Sciences, Engineering, and Medicine; Division on Earth and Life Studies; Board on Chemical Sciences and Technology. Washington, DC: National Academies Press. https://doi.org/10.17226/25340

[5] Bayer, K. (2014). Brief note on the development of biotechnology. Food Technology and Biotechnology, 52(1), 13-15.

[6] Bayer, K. (2014). Brief note on the development of biotechnology. Food Technology and Biotechnology, 52(1), 13-15.

[7] Bhambure, R. , Kumar, K. , & Rathore, A. S. (2011). High-throughput process development for biopharmaceutical drug substances. Trends in Biotechnology, 29(3), 127-135. https://doi.org/10.1016/j.tibtech.2010.12.001

[8] Bhambure, R. , Kumar, K. , & Rathore, A. S. (2011). High-throughput process development for biopharmaceutical drug substances. Trends in Biotechnology, 29(3), 127-135. https://doi.org/10.1016/j.tibtech.2010.12.001

[9] Brühlmann, D. , Jordan, M. , Hemberger, J. , Sauer, M. , Stettler, M. , & Broly, H. (2015). Tailoring recombinant protein quality by rational media design. Biotechnology Progress, 31(3), 615-629. https://doi.org/10.1002/btpr.2089

[10] Brühlmann, D. , Jordan, M. , Hemberger, J. , Sauer, M. , Stettler, M. , & Broly, H. (2015). Tailoring recombinant protein quality by rational media design. Biotechnology Progress, 31(3), 615-629. https://doi.org/10.1002/btpr.2089

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Online monitoring and control of upstream cell culture process using 1D and 2D-LC with SegFlow interface

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Online monitoring and control of upstream cell culture process using 1D and 2D-LC with SegFlow interface

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Abstract

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