Cambridge Healthtech Institute’s 7th Annual

Cell Culture and Bioproduction

Emerging Technologies, Improved Process Control and New Opportunities

19 - 20 March 2024 ALL TIMES CET

Cambridge Healthtech Institute’s 7th Annual Cell Culture and Bioproduction conference examines technologies and strategies that lead to greater productivity for cultivating cells and scaling these systems for clinical and commercial production. The meeting includes coverage of new bioreactor technologies, the increasing role of computational modeling and AI/ML, new process control systems, and the application of these tools in the production of new biotherapeutic modalities.

Tuesday, 19 March

Registration and Morning Coffee07:00

EMERGING AND SUSTAINABLE BIOREACTOR TECHNOLOGIES

08:25

Chairperson's Remarks

Stephan Noack, PhD, Group Leader, Quantitative Microbial Phenotyping, Forschungszentrum Jülich

08:30

FEATURED PRESENTATION: Novel Scale-Down Tools for Perfusion Optimisation in Biopharmaceutical Production

Martina Micheletti, PhD, Professor, Bioprocess Fluid Dynamics, University College London

The complexity of perfusion processes requires the optimization of multiple parameters as well as the selection of suitable production cell clones. To ensure time- and cost-efficiency, high-throughput methods employing scale-down are needed. Such methods mimicking perfusion can achieve high cell densities while reducing the medium consumption and enabling the investigation of several conditions in parallel. Two methods have been developed: a first microwell-based method operates in semi-perfusion mode with exploration of different medium exchange regimes and cell retention mimicked by centrifugation with and without cell bleed, while a 250mL bioreactor system is able to perform perfusion runs of selected clones.

09:00

Industrialisation of IPSC-Derived Allogenic Cell Therapies Using a Scalable Automated Process for Expansion and Differentiation

Juline Guenat, Associate Lead Scientist, Technology & Process Innovation, Cell & Gene Therapy Catapult

Pluripotent stem cell therapies need high cell doses exceeding traditional 2D capabilities. We present a closed, scalable, semi-automated process to expand pluripotent stem cells as high-density aggregates in stirred tank reactors. It achieves a 22-fold expansion over four days while retaining pluripotency markers. Acoustic perfusion enables automated medium exchange with improved control over aggregate quality. Harvested aggregates were differentiated to natural killer cells in 3D.

09:30 Leap-In Transposase Mediated Stable Cell Line Development: More, Better, Faster

Mario Pereira, PhD, Director of Technology & Business Development, ATUM

Monoclonal antibodies in their many divergent formats have revolutionized medicine and today represents >$100B/year in pharmaceutical sales. ATUM has built an integrated pipeline from generation of antigens via affinity maturation, developability, engineering and humanization all the way through scale up and stable cell line generation. The presentation will include case studies highlighting technological breakthroughs in synthetic biology, machine learning, LIMS data integration, robotics and engineered transposases to ensure maximum efficiency.

Grand Opening Coffee Break in the Exhibit Hall with Poster Viewing10:00

10:45

Advances in Small-Scale Automation and Robotisation

Stephan Noack, PhD, Group Leader, Quantitative Microbial Phenotyping, Forschungszentrum Jülich

Laboratory automation in biotechnology has made significant progress in recent years, revolutionising the way experiments and research are conducted. The automation of entire workflows from strain engineering to bioprocess optimisation is currently the focus of attention in industry and academia, and various biofoundries are emerging around the world. I will introduce the Jülich Biofoundry and discuss challenges and solutions in the field of automated microbial bioprocess development. In particular, the standardisation and automation of molecular cloning procedures are crucial for exploring, utilising, and shaping the broad genetic parameter space of different model organisms.

11:15

Upstream Modelling Toolbox for Monoclonal Antibody (mAb) Process Development

Sabine Arnold, PhD, Senior Scientist, Upstream Process Development, Boehringer Ingelheim Pharma GmbH

Mammalian cell-based mAb production is a complex process involving many factors that determine process performance and product quality. To leverage model-based decisions in development, we have established a versatile modelling toolbox with fit-for-purpose models addressing different aspects of the overall process. We will show selected applications of mechanistic, hybrid and machine learning models, and how these digital approaches can help improving the efficiency and timelines in robust process development.

11:45

KEYNOTE PRESENTATION: Revolutionising Bioprocess Innovation: Unleashing the Power of KIWI-Biolab's Robotic Ecosystem by Orchestration of Model-Based DoEs, Fast in-Depth Analytics for Recombinant Protein Processes

Peter Neubauer, PhD, Lab Head, Bioprocess Engineering, TU Berlin

The KIWI-biolab enables efficient recombinant bioprocess development and optimisation on a robotic platform with fully automatic orchestration of parallel bioreactor systems of different scales, analytical instruments, and a mobile laboratory robot. Based on FAIR data principles it allows self-controlled parallel fed-batch cultivations, integrated sample analysis, and mathematical model-based parameter calibration and CQA optimisation. The power of the platform is demonstrated by industrially relevant recombinant processes including Fabs, elastins, and hydrogenase.

12:15 In-Line Monitoring of Bioprocess Parameters for the 21st Century

Christopher D. Brown, PhD., Chief Product Officer and Co-founder, 908 Devices

In this presentation, we will review the current state of spectroscopy-based approaches and their associated strengths and limitations. We’ll discuss a few use cases showing the use of an innovative platform designed to greatly simplify implementation and interpretation of in-line process parameter data during typical bioprocess runs.

Networking Lunch (Sponsorship Opportunity Available)12:45

COMPUTATIONAL MODELLING AND ML/AI IN UPSTREAM PROCESSING

13:45

Chairperson's Remarks

Christoph Herwig, PhD, former Professor, Bioprocess Engineering, Vienna University of Technology; CPO, Fermify GmbH; Senior Scientific Advisor, Körber Pharma Austria

13:50

PAT-Based VCD Soft Sensor Facilitates Model-Based Process Monitoring, Automation, and Control

Benjamin Bayer, PhD, Scientist CMC, Biotherapeutics Technology Development & Implementation, Takeda

The integration of a PAT-based viable cell density (VCD) soft sensor facilitates model-based process monitoring, automation, and control within the biopharmaceutical industry. This innovative technology harnesses real-time data to estimate VCD, enabling biopharmaceutical manufacturers to make informed decisions swiftly such as proceeding to the next process step or controlling the feed flow. It enhances product consistency and reduces production costs, underscoring the vital role of data-driven strategies in advancing production of pharmaceuticals and biologics.

14:20

Understanding CHO Cell Biology at Single-Cell Resolution

Colin Clark, PhD, Principal Investigator, NIBRT; Associate Professor, University College Dublin

Overcoming the inherent heterogeneity of cells grown in vitro is essential to deliver effective, uniform and safe biological medicines. This talk will focus on the application of single cell omics to understand the CHO cell biological system and how the technology can be used to understand the emergence of phenotypic instability. We will provide examples of studies DNA, RNA as well as at the protein level.

14:50

Accelerated Process Development and Automated Process Control: Resolving Both by an Appropriate Modelling Approach

Mark Duerkop, CEO, Novasign GmbH

The use of modelling tools for bioprocess development and manufacturing has gained significant attention. But what does it take to create digital bioprocess-twins? Is it only about advanced algorithms, or do we need more to accurately represent and transfer knowledge from development to manufacturing? Key discussion points include the purpose of process modelling, experimental design, tailored modelling approaches, accelerated development, seamless scale-up, and real-time model use for monitoring and control.

15:20 Designing a Next-Generation Bioreactor Platform for Enhanced Biopharmaceutical Development

Ping-Wei Ho, PhD, Upstream Field Application Specialist, Customer Support, Cytiva

The biopharmaceutical industry grapples with cost pressures and the emergence of new product classes, necessitating innovation in process and equipment design. This presentation unveils the development of a novel bioreactor platform integrating cutting-edge CFD models, enabling process intensification as well as accommodating diverse modalities. It is emphasizing performance, scalability and modularity and a seamless transition from batch to intensified processes, ensuring accelerated timelines

Refreshment Break in the Exhibit Hall with Poster Viewing15:50

UPSTREAM PROCESS CHARACTERISATION AND CONTROL

16:20

End-to-End Digital Twins to Allow Efficient Experimental Design and Real-Time Release

Christoph Herwig, PhD, former Professor, Bioprocess Engineering, Vienna University of Technology; CPO, Fermify GmbH; Senior Scientific Advisor, Körber Pharma Austria

Acceleration of commercialization of biologics including the filing of a robust control strategy is of utmost importance for biosimilars up to new modalities. Digital twins capture CMC knowledge and allow multiple deployments. We will show 

  • How end-to-end digital twins can help saving 50% of experimental effort by incorporating drug substance specification when designing unit operations and
  • How real-time application allows for prediction and control on process performance?
  • How we can know screws to compensate for deviations in real time, and have a clear OOS probability perspective for real-time release and there with clearly differs from classical SPC approaches
16:50

Raman Technology to Enable Inline & Real-Time Glycosylation Monitoring

Jeremy Peyrol, USP Innovation Expert, Innovation for Biologics, Merck Biodevelopment SAS

Raman spectroscopy plays an important role in bioprocessing by providing in situ measurements and enabling real-time process control. In this study, we demonstrate the use of Raman spectroscopy as a key solution for inline and real-time monitoring of CPPs and CQAs along the upstream process.

17:20

Real-Time Model Predictive Control of Industrial Bioprocesses: Challenges and Solutions

Nadav Bar, PhD, Professor, Chemical Engineering, Norwegian University of Science and Technology

In industrial bioprocess control, conventional PI controllers, while effective for high-frequency measurements, often overlook complex variable interactions. They mainly focus on single input-single output scenarios. However, many situations require holistic consideration of multiple factors. Model Predictive Control (MPC) offers a versatile multi-input, multi-output framework, managing variables and constraints simultaneously. Challenges include model development, computational demands, expertise, and real-time implementation. We'll illustrate MPC's practical efficacy with industrial case studies across various processes. This highlights MPC's advantages and its ability to address complex bioprocess control needs, from batch to continuous operations.

INTERACTIVE BREAKOUT DISCUSSIONS

17:50Interactive 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:

IN-PERSON ONLY BREAKOUT: Digital Bioprocessing and Industry 4.0: How Far Along Are We?

Mark Duerkop, CEO, Novasign GmbH

  • Critical evaluation of the current industrial evolution
  • AI vs mechanistic modelling: what to choose?
  • Workflow vs data: where to invest?
  • Outlook how AI will change the way of bioprocessing in the future​

Welcome Reception in the Exhibit Hall with Poster Viewing18:30

Close of Day19:30

Wednesday, 20 March

Registration and Morning Coffee08:00

PROBLEMS AND SOLUTIONS

08:25

Chairperson's Remarks

Mark Duerkop, CEO, Novasign GmbH

08:30

Towards Continuous Bioproduction—Integration of Microfluidic Systems into Small-Scale Bioreactors

Janina Bahnemann, PhD, Professor, Cell Culture and Microsystems Technology, University of Augsburg

Monoclonal antibodies are increasingly dominating the market for therapeutic and diagnostic agents. For this reason, continuous methods—such as perfusion processes—are being explored in an ongoing effort to enhance product yields. In this work, we demonstrate a 3D-printed microfluidic spiral separator for cell retention integrated in a small-scale bioreactor system. This device achieves a separation efficiency of up to 100% and can readily be adapted according to process conditions (plug-and-play system) due to its fast and flexible 3D printing. In addition, we also improved production conditions by successfully separating dead cells and increasing cell viability in bioreactors.

09:00

Environmental Assessment of Single-Use Technology in Pharmaceutical Production

Stefan Junne, PhD, Associate Professor, Bioscience and Engineering, Aalborg University

Single-use technologies are well established in biopharma production. In this context, the question arises to what extent sustainability aspects play a role in the choice between reusable and disposable equipment. How can model processes and procedures be established in order to be able to carry out meaningful comparative studies and provide standardizable decision-making tools in an open access format? An overview is given of what has been explored so far, with respect to life-cycle assessments in the field of single-use technologies in bio-based applications and what still needs to be achieved.

09:30

Optimise Upstream Intensification to Achieve More Sustainable Processes

Anne Steinkämper, PhD, Scientist, Development Biologicals, Boehringer Ingelheim Pharma GmbH & Co. KG

Bioprocessing has made significant progress in the last decades, with advancements in cell-line engineering, media platforms, and process control. Delivering product with an increased space-time-yield, intensified processes seem to replace classical cell culture fed-batch processes step-by-step. Still, it is worth to discuss at which point even the combined use of process intensification and good producer cell lines has its limitations.

10:00 Future-Proofing Bioprocessing: Building Resilience with AI-Powered Digital Process Twins

Belma Alispahic, Head of Business Development, AnalysisMode

Imagine a bioprocessing future where development is faster, quality is assured, and robust reigns supreme. This future is closer than you think, thanks to the transformative power of AI-powered digital process twins that optimizes production processes, unlocking a new era of: Effective R&D: Virtual experiments translate to lightning-fast development and reduced costs, and Unwavering Quality: Consistent, superior biologics pave the way for safer, more effective treatments.

Presentation to be Announced10:15

Coffee Break in the Exhibit Hall with Poster Viewing10:30

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

12:35 Novel Approaches in an Efficient Affinity Chromatography Strategy for Your Antibody Variants & Recombinant Proteins

Helen Cheek, Global Product Manager, Marketing, Cytiva

Antibodies are the largest class of biotherapeutics today and are likely to remain so in the future.  As this class grows, so does its diversity - projects in preclinical stages through to commercial manufacturing increasingly involve variants such as bispecifics, conjugates, or fragments.

Platform approaches have eased the development of purification protocols but selecting purification schemes can be challenging for antibody variants given the wide range in the pipeline

Networking Lunch (Sponsorship Opportunity Available)13:05

Close of Cell Culture and Bioproduction Conference14:05