In CODOBIO ESRs participated in extensive training sessions laying the ground for developing and applying novel technologies. The scientific trainings were accompanied by soft skill trainings equipping them with a set of skills that enables the ESRs to enter into their next career steps.
acib led work package 1 dealing with research work addressing the improved product quality and manufacturability when a process is rendered from a batch to a continuous DSP (NVSP, acib). Continuous integrated biomanufacturing allows the implementation of process control compared to batch processing. To understand the process a model must be developed (acib). Process models are also required to develop a model predictive control (MPC) strategy (EVON). To fully exploit MPC sensors are required and in particular sensors for product related impurities are not readily available (TUD).
WP2 led by IST dealt with the training of ESRs in the specific skills required for miniaturization and scale-up of continuous DSP and trained ESRs on different aspects of microscale bioprocesses, from mixing to miniaturized unit operations (acib, TUD). Focus was given to the development of mathematic models that translate data obtained in the miniaturized systems to lab, pilot and industrial scale equipment. Monoclonal antibodies were used as model systems for the continuous chromatography studies whereas enzymes were the model choice in the batch/continuous extraction studies (IST).
The aim of work package 3 led by POLIMI is to provide the ESRs with the theoretical and practical understanding required to design, develop, monitor and control continuous and integrated processes for the manufacturing of bioproducts. Specifically, this WP explored the integration of different DSP unit operations, not necessarily based on column chromatography (JUB), as well as the upstream and downstream section of a bioprocess. The justification for the activities of this WP came from a detailed economic analysis comparing traditional batch operations and continuous integrated processes, so that ESRs could properly identify advantages and drawbacks of each manufacturing approach (UCL). LU studied the design and realization of a laboratory-scale continuous DSP, implementing a model-based control strategy. Finally, POLIMI investigated the application of PAT tools for the in-line monitoring of continuous upstream and downstream operations, with specific focus on in situ Raman and infrared spectroscopy.
CODOBIO’s scientific work resulted in almost 30 open access publications in peer-reviewed journals. Two patent applications, a record of invention and some other exploitable results applied in industry came out of the project.