Cambridge Healthtech Institute’s 7th Annual

Advances in Recovery and Purification – Part 1

Optimizing DSP, Reducing Costs

19 - 20 March 2024 ALL TIMES CET

Cambridge Healthtech Institute’s two-part conference on Advances in Recovery and Purification brings together industry and academia to discuss the latest developments in the capture, recovery, and purification of biotherapeutics—mAb and non-mAb—with data-driven case studies on next-generation technologies and strategies in affinity chromatography, clarification, depth filtration, automation, HTPD, new membranes, and flocculation. Part 1 will focus on the use of DSP in more traditional modalities, such as antibodies, fragments, bispecifics, and ADCs, including digitalisation, process modelling, and sustainability.

Tuesday, 19 March

Registration and Morning Coffee07:00

ADVANCES IN CAPTURE AND RECOVERY

08:25

Chairperson's Opening Remarks

David O’Connell, PhD, Associate Professor, School of Biomolecular & Biomedical Science, University College Dublin

08:30

Design and Discovery of Affinity and Mixed-Mode Adsorbents 

Cecilia Roque, PhD, Associate Professor in Bioengineering, NOVA University of Lisbon

How relevant are the matrix and ligands when developing adsorbents with improved functionality? In this talk, we will show how robust peptidomimetics can be easily adapted to several targets and to chromatographic and non-chromatographic matrices and purification processes.

09:00

Engineering Calcium-Dependent Affinity Proteins for Protein Purification: From Design to Continuous Processing

Sophia Hober, PhD, Professor, School of Biotechnology, KTH Royal Institute of Technology

Due to the costly and time-consuming production of biologicals, selective affinity purification methods are desirable. For efficient purification, several criteria are to be met. Strategies to address the harsh conditions often required for efficient affinity chromatography purification will be presented. Novel domains with calcium dependent affinity, developed through a semi-rational design combined with directed evolution, will be described. Further, insight on the molecular mechanism underlying the calcium switch, investigated by analyzing protein structure and dynamics with NMR spectroscopy will be shared.

09:30

How an Old-Fashioned Test Can Help to Improve a Whole Process

Karl Behler, PhD, Senior Scientist, MS&T, DSK, Novartis Pharmaceutical Manufacturing GmbH

This study investigates the utilisation of agarose gel electrophoresis (AGE) to identify byproducts in plasmid DNA (pDNA). Despite its perceived obsolescence, AGE successfully confirmed pDNA identity whilst uncovering additional bands for further analysis. Through meticulous examination using size-specific gel extraction and next-generation sequencing (NGS), the study identified these bands as deletion variants of the original pDNA, with low significance for subsequent processing steps. By reducing cell stress and lowering incubation temperature during seed culture fermentation, the occurrence of deletion variants in upstream processing (USP) was significantly minimised, eliminating the need for rigorous cleaning procedures and enhancing overall process efficiency.

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

ADVANCES IN DOWNSTREAM PROCESSING, PROCESS OPTIMISATION

10:45 FEATURED PRESENTATION:

Manufacturing Strategy for Recombinant Proteins Expressed in Microbials

Cecile Brocard, PhD, Director Downstream Development, Bioprocess Science, Boehringer Ingelheim RCV GmbH & Co. KG

The expression of recombinant proteins in microbial systems like E. coli is highly efficient for non-mAb biopharmaceuticals. High throughput process development and integrated process modeling significantly enhance efficiency and optimization, reducing both timelines and costs. The integration of advanced technologies and AI-assisted strategies, which combine mechanistic and data-driven models, holds great promise for streamlining manufacturing processes. Topics for discussion: bioprocessing 4.0: Implementation of AI and ML in biopharmaceutical manufacturing; how to approach sustainability issues during development and in manufacturing; and evolution of analytical methods and how to cope with HCPs.

11:15

pH-Independent Potential-Controlled Antibody Purification

Sonja Berensmeier, PhD, Professor, Bioseparation Engineering Group, School of Engineering and Design, Technical University of Munich

This study introduces a novel proof of concept for antibody purification through potential-controlled membrane chromatography, addressing cost and efficiency in large-scale production. A 2.5 V cell potential was able to disrupt Protein A-antibody interactions and achieved ~90% elution rates. Membrane chromatography itself offers faster cycle times and eliminates mass transfer limitations. Additionally, it reduces reliance on buffer exchange, potentially enhancing sustainability. Its efficiency and sustainability render it a promising alternative for antibody production. Furthermore, the lack of low pH elution buffers offers promising new adaptations for difficult and pH-sensitive antibody species.

11:45 PANEL DISCUSSION:

Optimising Recovery and Purification

PANEL MODERATOR:

David O’Connell, PhD, Associate Professor, School of Biomolecular & Biomedical Science, University College Dublin

  • Technology gaps to optimise purification
  • ​New capture strategies
  • Translating new technologies into industry platforms
  • Impact of new modalities
PANELISTS:

Cecile Brocard, PhD, Director Downstream Development, Bioprocess Science, Boehringer Ingelheim RCV GmbH & Co. KG

Sonja Berensmeier, PhD, Professor, Bioseparation Engineering Group, School of Engineering and Design, Technical University of Munich

Sophia Hober, PhD, Professor, School of Biotechnology, KTH Royal Institute of Technology

Cecilia Roque, PhD, Associate Professor in Bioengineering, NOVA University of Lisbon

12:15 Galactose and Mannose Supplementation in Cell Culture - Glycoform Modulation and Other Considerations

Thomas Nsenda, PhD, Pfanstiehl

Galactose and Mannose are important carbohydrates that are widely used as cell culture media supplements for recombinant protein and other applications. Galactose plays an important role in protein Glycoform modulation and aids in Cellular energy production, Synthesis of Glycoproteins and Glycolipids and Energy storage. Mannose plays important role in Glycoform modulation, energy production and signal transduction. Purity and quality must be considered when choosing the cell culture media supplements.

Networking Lunch (Sponsorship Opportunity Available)12:45

DOWNSTREAM PROCESSING FOR COMPLEX MODALITIES

13:45

Chairperson's Remarks

Sophia Hober, PhD, Professor, School of Biotechnology, KTH Royal Institute of Technology

13:50

Downstream Processing of DuoBody Bispecific Antibodies

Marija Mucibabic, PhD, Senior Scientist, Downstream Processing, Genmab

The DuoBody platform is a versatile and dependable technology for generating bispecific antibodies. Unlike other bispecific antibody platforms, the process is based on controlled Fab-arm exchange, which is performed post-production using purified monospecific antibodies. The process yields bispecific antibodies that retain the molecular structure and quality attributes of therapeutic IgGs. Case studies are presented detailing downstream processing approaches in the development of a range of bispecific antibody therapeutics.

14:20

Modular High-Throughput Platform for the Purification of scFvs and Multispecific Antibody-Based Therapeutics

Bastian Franke, PhD, Associate Director and Group Leader, Downstream Processing, Numab Therapeutics AG

With the goal to streamline and accelerate protein production, automated ÄKTA-based purification protocols have been developed consisting of autosampler systems (Teledyne, ALIAS) to facilitate injections during overnight and idling times, two- and three-column schemes to automate purifications, and novel affinity chromatography membrane technology to reduce cyclization time. Those protocols enable the cost-effective screening and purification of hundreds of single-chain variable fragments (scFvs) and multispecific antibody-based therapeutics per week with high monomeric purity.

14:50

Development of Downstream Processing for Novel Scaffold Therapeutics: Monomers, Multimers, and FC Fusions

David O’Connell, PhD, Associate Professor, School of Biomolecular & Biomedical Science, University College Dublin

Development of novel protein scaffolds through protein engineering strategies requires the complementary development of downstream processing methods for the non-natural proteins. Further steps taken in one expression host may need to be altered or optimised in another. We describe here the development of novel 10kDa scaffolds, SXkmers, and the development of techniques to purify and polish for in vitro and in vivo studies with monomers, dimers, and Fc fusion variants.

15:20 Multi-Column Chromatography: Cost Saving Perspectives with Pre-Packed Columns

Sebastian Thuermann, Product Manager MCC EMEA, Tosoh Bioscience GmbH

Multicolumn chromatography (MCC) proves its value in improving downstream purification, as demonstrated in a joint case study with a CDMO for a protein A-based capture step. Despite the benefits, such as fewer consumables, faster processing, and better resin utilization, it can be difficult to predict tangible cost savings. We applied BioSolve software to compare processing times and costs for purification platforms at varying titers, for both pre-packed and self-packed columns.

15:35Session Break

Refreshment Break in the Exhibit Hall with Poster Viewing15:50

VIRAL VACCINES, ANTIBODIES FOR SNAKE VENOMS

16:20

Revisiting Membrane Chromatography and Absorbers Viral Vaccine Purification

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

A lot of choices of membrane absorbers and fiber materials for virus purification, compared to the past. What is the selection criterion for a membrane adsorber and fiber material? The ideal separation process for a viral vaccine.

16:50 KEYNOTE PRESENTATION

The Technical Challenges of Developing Monoclonal Antibodies against Snake Venoms

Andreas H. Laustsen, PhD, Center Director & Professor, Center for Antibody Technologies, DTU Bioengineering, Technical University of Denmark

Snakebite envenoming is a serious medical challenge that each year claims the lives of >100,000 people and leaves many more maimed for life. The only existing specific therapy against envenoming is antivenom based on polyclonal antibodies derived from the plasma of immunized animals. While life-saving, these medicines are not compatible with the human immune system and may cause immunological adverse reactions, and they are expensive to manufacture. In this talk, I will present my group’s ongoing work on developing recombinant antivenoms based on human monoclonal antibodies and nanobodies, and provide perspectives on the challenges of bringing these to patients worldwide.

17:20 Intelligent Sensors for Critical Process Parameters in Downstream Unit Operations

Giovanni Campolongo, Senior Market Segment Manager Process Analytics, Process Analytics, Hamilton Bonaduz AG

Downstream Processing comprises a series of operational units, including the separation, purification, and viral inactivation of therapeutic proteins and Active Pharmaceutical Ingredients. This presentation centers on the Critical Quality Attributes (CQAs) and Critical Process Parameters (CPPs), particularly pH and conductivity, within these units, or more precisely, within these skids. We will also highlight the importance of real-time CPP monitoring through advanced intelligent sensors.

17:35Session Break

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:

ICH Q5 A (R1) Revision: Viral safety Evaluation of Biotechnology Products Derived from Cell Lines of Human or Animal Origin

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

  • Expectations
  • What has changed
  • Impact on bioprocessing


Welcome Reception in the Exhibit Hall with Poster Viewing18:30

Close of Day19:30

Wednesday, 20 March

Registration and Morning Coffee08:00

NOVEL APPROACHES TO CHROMATOGRAPHY

08:25

Chairperson's Remarks 

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

08:30

Adaptive Model Predictive Control for Mitigating Column Aging Effects in Process Chromatography

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

This presentation unveils an adaptive Model Predictive Control (MPC) framework designed to mitigate the challenges of column aging in process chromatography. Through a nonlinear MPC, extended Kalman filter, and a soft sensor mechanism, the framework dynamically adapts to resin capacity reduction, optimising bioprocesses. Experiments demonstrate a 50% reduction in processing time, improved resin and buffer utilisation, marking a stride towards sustainable production aligned with BioPharma 4.0.

09:00

Preparative Chromatography—A Different Perspective on Biomolecule Adsorption Mechanism Provided by Flow Microcalorimetry

Cristina M. Dias-Cabral, PhD, Professor, Chemistry, University of Beira Interior

Understanding how biomolecules interact with chromatography resin is a pivotal challenge in chromatographic procedures, requiring a deep grasp of fundamental adsorption mechanisms. Thermodynamic studies, using batch equilibrium experiments and calorimetric measurements, have illuminated liquid chromatography biomolecule adsorption processes. However, we continue to face limitations in resolving thermodynamic variances related to protein loading and temperature. Flow microcalorimetry (FMC) ability to measure heat signals during chromatographic events, both in linear and overloaded conditions, has proven invaluable, enhancing chromatography forces comprehension. It clarifies biomolecule adsorption mechanisms, shedding light on interactions with diverse supports (ion-exchange, silica-based matrices), aiding in exploring surface heterogeneous adsorption and biomolecule rearrangement.

09:30 Process Improvements Using Continuous Mode with Ceramic Hydroxyapatite Resin

Vincent Dechavanne, Master 2 of Science, Senior Scientist II, DSP Process Development, Fresenius-Kabi Biopharma

Biosimilar manufacturing unlocks patients access to affordable therapies. To decrease the cost of production of biosimilars, comparison studies between batch and continuous processes were performed for two downstream processes. This case study consisted of the use of CHT™ Ceramic Hydroxyapatite media in a continuous mode, allowing an improvement of productivity and resin usage while maintaining purity and yield performance. 

10:00 High Productivity Protein A Membrane Devices Complement Disposable Upstream Technology for a Fully Single-Use Process

William Barrett, PhD, Product Specialist, PharmBIO, W. L. Gore & Associates, Inc.

An intensified and fully single use downstream operation was demonstrated to process a monoclonal antibody cell culture harvest at a manufacturing scale. The results of the study were extrapolated to show the potential for high productivity affinity capture sufficient up to 10 g/L titers at the 2000 L scale.

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 (Sponsored Opportunity Available)13:05

Close of Advances in Recovery and Purification – Part 114:05