Cambridge Healthtech Institute’s 7th Annual

Intensified and Continuous Processing

Digitalization, Process Intensification, and Sustainability

20 - 21 March 2024 ALL TIMES CET

Cambridge Healthtech Institute’s 7th Annual Intensified and Continuous Processing conference focuses on developing, integrating, and implementing semi- and fully-continuous processing in upstream and downstream processing for clinical and commercial use. Key topics include process intensification, continuous process development from perfusion to purification, digitalization, process control, robustness and monitoring, viral safety, cost analysis, and ramping up production from clinical to commercialisation, all in line with international regulations. The conference also looks at the increasing move towards sustainable biomanufacturing and end-of-product lifecycle.

Wednesday, 20 March

Registration Open10:30

PLENARY KEYNOTE SESSION

BACK TO THE FUTURE OF BIOPROCESSING—ANTIBODIES TO EXTRACELLULAR VESICLES

11:15

Chairperson's Opening Remarks

Alois Jungbauer, PhD, Professor & Head, Biotechnology, Institute of Bioprocess Science and Engineering, University of Natural Resources and Life Sciences (BOKU)

11:20 PLENARY PRESENTATION:

What Have Monoclonal Antibodies Ever Done for Us? Past, Present, and Future Perspectives on Antibodies and How They Have Driven Bioprocessing Progress

Paul Varley, PhD, Senior Vice President, Development, Alchemab Therapeutics

Advances in bioprocessing have been pivotal to the emergence of monoclonal antibodies as one of the most successful classes of drugs in modern medicine. In this talk we will consider this journey and ask what's next for antibodies. We will also explore how advances in antibody bioprocessing continue to enable the next generation of biological medicines through the emergence of new product modalities.

11:50 PLENARY PRESENTATION:

Extracellular Vesicles as Promising Drug Modalities in Spinal Cord Injury and Other (Neuro-)Degenerative Diseases

Eva Rohde, MD, Chair, Transfusion Medicine, Director GMP Unit, Spinal Cord Injury and Tissue Regeneration Center Salzburg (SCI-TReCS), Paracelsus Medical University Salzburg

Extracellular vesicles (EVs) have emerged as promising new biologic drug modalities. EV therapeutics (EV-Tx) from mesenchymal stromal cells (MSC) exert anti-inflammatory, anti-fibrotic and regenerative effects. MSC-EV-Tx could optimise healing after acute traumatic injury. Challenges in reproducible EV-Tx manufacturing prevent comprehensive evaluation of their efficacy. In early research, the paradigm of “the-process-is-the-product” is valid for complex biologicals. A “one-size-fits-all” approach to solve technical and regulatory issues is not available for EV-Tx. The claimed disease-related mechanisms of action (MoA) of candidate EV-Tx will determine regulatory requirements to be met. This presentation will introduce concepts to accelerate EV-Tx testing in various target diseases.

Session Break12:20

Sponsored Presentation (Opportunity Available)12:35

Networking Lunch (Sponsored Opportunity Available)13:05

THE DIGITALISATION OF BIOPROCESSING

14:15

Chairperson's Opening Remarks

Michael Sokolov, PhD, Lecturer, ETH Zurich, COO, DataHow AG

14:20

The Role of Digitalisation in Continuous Processing of Therapeutic Proteins

Michael Sokolov, PhD, Lecturer, ETH Zurich, COO, DataHow AG

To sustain the rapid expansion of biopharmaceuticals whilst preserving their quality, the Quality-by-Design (QbD) initiative was introduced, which has process intensification as a main pillar. Process integration and continuous operations are valuable strategies towards consistent product quality and high throughput. However, digitalisation is the keystone to express their full potential as it allows a model-based process control, a reduction in time-to-market and costs, and fulfillment of the QbD guidelines.

14:50 KEYNOTE PRESENTATION

Improving DSP Processes Based on Big Data and Visualisation Tools—What Happens When the (Data) Lake Is Overflowing

Sandra Krause, Lab Engineer, Biodevelopment Microbial Platform, Sanofi

Digital transformation is the keyword in the beginning of the 21st century. Companies, including biotech and pharma, push forward to keep pace with customer needs and competitors. Here, we describe how to handle big data, with visualisation tools for a quick insight into our DSP processes, enabling data-driven decision-making in experiment design and execution. With executing digitalisation in our labs we play an important role in Sanofi’s global digital transformation.

15:20

Process Analytical Technologies (PAT) Integrated into Digital Twin Deployment for Downstream Processes

Antonio G. Cardillo, PhD, Scientific Lead Associate Director, TRD-DS Global Innovation Centre, GSK Vaccines

Biopharmaceutical industry traditionally relies on pharmaceutical manufacturing practices to monitor processes and release products. The use of Process Analytical Technologies (PAT) can improve the process monitoring and control, and increase the process understanding. PAT also enable real-time control when integrated into a digital twin. This talk is concerned with the implementation of PAT and development of digital twins in GSK for purification processes.


15:50 How New Affinity Resins Can Address Growing Complexities in Downstream Protein Purification

Alain Medina, Field Application Scientist, Bioprocessing, Purolite, An Ecolab Company

Application data will be presented on the capture of several Fc containing proteins using Praesto Jetted A50 HipH, a novel protein A resin with mild pH elution capability. Discussion will focus on improvements of both purity and recovery under increased pH elution conditions Lastly, methods to improve process economy through high capacity and increased resin lifetime for purification of human bispecifics and Fab-based molecules will be explored for Praesto 70 CH1.

Refreshment Break in the Exhibit Hall with Poster Viewing16:20

INTEGRATED CONTINUOUS PROCESSING

16:55

Chairperson's Remarks

Alois Jungbauer, PhD, Professor & Head, Biotechnology, Institute of Bioprocess Science and Engineering, University of Natural Resources and Life Sciences (BOKU)

17:00

Bringing Integrated Processes to Steady-State: Startup and Shutdown

Alois Jungbauer, PhD, Professor & Head, Biotechnology, Institute of Bioprocess Science and Engineering, University of Natural Resources and Life Sciences (BOKU)

In Integrated continuous biomanufacturing (ICB), the startup and shutdown depends mainly on the residence time distribution (RTD). A wide RTD also renders a fast process in a slow start-up and shutdown phase. The removal of surge tanks between unit operations, by the adoption of tubular reactors, maintains a continuous harvest and mass flow of product with the advantage of a narrow RTD. Continuous precipitation coupled with continuous tangential flow filtration is a cost-effective alternative for the capture of recombinant antibodies from crude cell culture supernatant.

17:30

Implementing Advanced Process Control Strategies to Progress Continuous Manufacturing in Biologics Processes

Lara Fernandez-Cerezo, PhD, Associate Principal Scientist, Merck

Switching from standard fed-batch processes to intensified continuous manufacturing (CM) can significantly improve the cost-effectiveness of biologics production. CM processes are designed to operate continuously, with uninterrupted medium exchange and perfusate flow supply end-to-end. This is made possible through unit interconnectivity, where downstream flowrates are determined by the perfusate titer using process calculations. Different CM technological advances will be covered in this talk from novel process knowledge management tools for a holistic control to mass flow tracking and new walk-up development stations at the unit operation level. Developing and eventually implementing these initiatives will contribute towards field advancement.

INTERACTIVE BREAKOUT DISCUSSIONS

18:00Interactive Breakout Discussions

Interactive Breakout Discussions are informal, moderated discussions, allowing participants to exchange ideas and experiences and develop future collaborations around a focused topic. Each discussion will be led by a facilitator who keeps the discussion on track and the group engaged. To get the most out of this format, please come prepared to share examples from your work, be a part of a collective, problem-solving session, and participate in active idea sharing. Please visit the Interactive Breakout Discussions page on the conference website for a complete listing of topics and descriptions.

IN-PERSON ONLY BREAKOUT:

Digitalization of Biomanufacturing

Michael Sokolov, PhD, Lecturer, ETH Zurich, COO, DataHow AG

  • Implementing Digital transformation
  • Role of AI/ ML in Bioprocessing
  • Shared experiences​

Close of Day18:30

Thursday, 21 March

Registration and Morning Coffee08:00

PROCESS INTENSIFICATION

08:25

Chairperson's Remarks

Margit Holzer, PhD, Owner, Ulysse Consult

08:30

Addressing Perfusion Cell Culture Limitation to Promote Longer Operating Times and Reduced Losses in the Bleed

Loic Chappuis, PhD, Scientist, Upstream Processing, Merck

This presentation will explore some of the challenges associated with developing long perfusion processes with stable product quantity and quality output over time. The first part will focus on the simultaneous reduction of the bulk fraction (bleed) removal needed to maintain the biomass and different methods will be described. The second part will cover filtration limitations (flow rate, sieving, clogging) and will describe alternatives to retain cells in the bioreactor in combination with bleed reduction. A continuous single-use centrifuge for cell retention was, for example, tested at pilot-scale.

09:00 FEATURED PRESENTATION:

Smart Tools for High Cell-Density Perfusion Culture Process

Veronique Chotteau, Professor, Director of AdBIOPRO, Centre for Advanced Bioproduction by Continuous Processing, Industrial Biotechnology, KTH Royal Institute of Technology

Sugars are known to influence the antibody (mAb) N-glycosylation. We have studied this effect in high cell-density perfusion of CHO cells and developed a model for the simulation of this effect. We show that N-glycosylation tuning can be obtained by varying the concentration of glucose, mannose and/or galactose, and we propose a model-based approach to control the N-glycosylation in high cell density perfusion culture.

09:30

Optimisation of Commercial-Scale Intensified Cell Culture

Sa'ad Ojeili, Bioprocess Consultant, BioPharm Services Ltd

Scaling-up a bioprocess for manufacturing is complex and the impact of cell culture parameters influences manufacturing modalities. BioSolve process incorporating multi-objective Bayesian optimisation is used to analyse the complex design space to help identify optimal solutions. This case study identifies optimal configurations for fed batch, perfusion, or intensified fed batch. The outcomes of the optimisation studies identify those factors that maximise economic, and sustainable benefits.

10:00 A Novel In-line Sensor System for Real-time Bioprocess Monitoring

Erik Martinsson, CEO, ArgusEye

Bioprocessing still relies on time-consuming off-line analysis for quality control, with very limited technologies available for in-line or on-line detection. In this presentation, we introduce AugaOne, an innovative in-line sensor system designed for enhanced bioprocessing. Utilizing a nanoplasmonic sensing technology platform, AugaOne offers real-time monitoring of critical quality attributes and process parameters, ensuring optimal process control. Its modular design integrates seamlessly into existing equipment, increasing process efficiency, and intensifying process development.

10:15Session Break

Coffee Break in the Exhibit Hall with Poster Viewing10:30

ICH Q13, SUSTAINABILITY IN BIOPROCESSING

11:00

ICH Q13 Requirements for Continuous Bioprocessing

Margit Holzer, PhD, Owner, Ulysse Consult

The ICH Q13 guideline provides scientific and regulatory considerations for the development, implementation, operation, and lifecycle management of continuous manufacturing (CM) of drug substances and drug products. This presentation will discuss the application to biomanufacturing.

11:30

Transferable Raman-Based Soft Sensors as Enablers of Continuous Processing

Alexandra Umprecht, PhD, Scientist, Digital CMC Sustainability and Technology, Pharmaceutical Sciences, R&D, Takeda Pharmaceuticals

Shift towards continuous bioprocessing relies on availability of robust real-time sensors enabling monitoring and control. Soft sensors are utilized where direct measurement is not possible or practical. Raman spectroscopy has emerged as a prominent soft-sensing technique, but road blocks to wider deployment remain, such as limited model transferability between processes, scales, or instruments. This talk will explore common causes of lack of transferability, their classification, and potential mitigation strategies.

12:00

Emerging Technologies for Sustainable Manufacturing in Biopharma

Dimitrios Lamprou, PhD, Chair of Biofabrication and Advanced Manufacturing, Queen's University Belfast

Emerging technologies are at the forefront of promoting a sustainable message by delivering plausible environmental standards whilst maintaining efficacy and economic viability. Additive manufacturing processes are highly customisable, allowing for their optimisation in terms of sustainability, from reducing printing time to reducing material usage by removing supports. Microfluidics too are supporting sustainability via reduced material wastage and providing a sustainable means for point-of-care analysis.

Networking Lunch (Sponsorship Opportunity Available)12:30

INTENSIFIED SOLUTIONS FOR E.COLI AND COMPLEX PROTEINS

13:45

Chairperson's Remarks

Gerald Striedner, PhD, University Professor, Biotechnology, University of Natural Resources and Life Sciences Vienna (BOKU), Austria

13:50

Continuous Processing of E. coli 

Gerald Striedner, PhD, University Professor, Biotechnology, University of Natural Resources and Life Sciences Vienna (BOKU), Austria

Genome-integrated, as well as growth-decoupled E. coli expression systems, enable continuous protein production. Efficient implementation requires suitable process strategies for cultivation, and product recovery and purification. The presentation will show two case studies inclusive of an economic evaluation with standard fed-batch as benchmark. We will also present results from a cutting-edge, highly-funded, innovative R&D project named ECOnti.

14:20

Sustainable, Continuous Enzyme Production with Microbial Hosts

Julian Kopp, PhD, Postdoc Researcher, Chemical & Environmental & Biological Engineering, Vienna University of Technology

As the human population increases, the demand for biotechnologically produced, value-added products rises. Facing the drastic climate change, processes require severe transformation to produce fewer greenhouse gas emissions at lower water consumption. Continuous bioprocessing allows us to tackle these issues. In my talk, I will demonstrate the potential of continuous bioprocessing for targeted-enzyme production with diverse microbials.

14:50

Hybrid Modelling Enables Autonomous Fully Continuous Bioprocesses

Benedikt Haslinger, Bioprocess Modelling Engineer, Novasign

In this talk, a fully continuous microbial production process involving a two-stage bioreactor system in combination with membrane filtration and MCC will be presented. By utilising mechanistic knowledge and machine learning algorithms, the entire process chain is modelled and optimised while the effect of each unit operation on the full control strategy is considered. This approach has the potential to impact the production of pharmaceuticals, industrial enzymes, and novel food.

Close of Summit15:20