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Moving towards an era of hybrid modelling: advantages and challenges of coupling mechanistic and data-driven models for upstream pharmaceutical bioprocesses

Apostolos Tsopanoglou, Ioscani Jiménez del Val

2021Current Opinion in Chemical Engineering99 citationsDOIOpen Access PDF

Abstract

Monoclonal antibodies (mAbs) are the highest-selling class of biopharmaceuticals due to their capabilities in treating severe illnesses. Thus, strategies to optimise their manufacture have been at the centre of recent academic and industrial research. Mechanistic and statistical modelling approaches are considered useful tools in that quest, not only because they can be employed for online process monitoring but also due to their abilities to offer useful insight into how the underlying micro and macro-scale phenomena of upstream bioprocesses impact the yield and quality of biopharmaceuticals. This manuscript provides an overview of the mechanistic and statistical models of upstream mAb bioprocesses that have been published over the past five years and discusses their advantages and drawbacks. We conclude with an outline of synergistic, hybrid modelling strategies, which are emerging as key tools in the era of Biopharma 4.0.

Topics & Concepts

Upstream (networking)Biochemical engineeringProcess (computing)Quality by DesignKey (lock)Computer scienceRisk analysis (engineering)Downstream (manufacturing)EngineeringBiotechnologySystems engineeringManagement scienceBiologyOperations managementBusinessComputer securityOperating systemComputer networkViral Infectious Diseases and Gene Expression in InsectsProtein purification and stabilityMonoclonal and Polyclonal Antibodies Research
Moving towards an era of hybrid modelling: advantages and challenges of coupling mechanistic and data-driven models for upstream pharmaceutical bioprocesses | Litcius