Agenda
DAY ONE
07.45 – 08.30
Registration
08.30 – 08.40
Welcome & Chairman’s Opening Remarks for Day One
Louis Boon, CSO, JJP Biologics
08.40 – 09.25
JJP-1212 as example for the “SMART GOOSE” story
Autoantigen-specific IgA autoantibodies closely correlate with symptoms severity in a subgroup of patients in multiple autoimmune diseases. Beyond the value of these IgA autoantibodies as biomarkers, the presence of excessive IgA/autoantigen immune complexes results in continuous CD89 (Fc?RI)-mediated activation of myeloid cells, leading to severe tissue damage. Activation of myeloid cells – especially of neutrophils – is a highly underappreciated and untargeted hallmark of autoimmune diseases. Enabling a personalized medicine approach, high autoantigen-specific IgA serum levels will serve as companion diagnostic to stratify patients for personalized treatment with our antagonist humanized anti-CD89 antibody (JJP-1212). Interfering with the IgA/CD89 axis by JJP-1212, resolves IgA/autoantigen-induced inflammation and subsequent tissue damage in a variety of autoimmune diseases.
Louis Boon, CSO, JJP Biologics
09.25 – 09.55
Next Generation Manufacturing and Continuous Bioprocessing: application of rapid bioburden testing
- In this work we focus on the evaluation and testing of a rapid bioburden technology and
its implementation for Intensified and continuous bioprocessing (ICB) microbial control. - This technology allows detect contamination in hours instead of several days – a limitation
of compendial methods. - The speed of detection is crucial to identify contamination and still have time to decide
on material diversion for a continuous process. - In collaboration with NIIMBL colleagues, the strategy on how to use early detection of
bioburden contamination, in a few ICB locations, informs how GMP facilities and their Quality
Management System will need to include new mitigation strategies for product diversion and
consequently batch release. - A case-study developed at AstraZeneca will be presented, where sampling strategy and
real-time data analysis was crucial to inform bioburden levels for all process intermediates
throughout the run.
Irina Ramos, Director Downstream Continuous Manufacturing, Bioprocess Engineering & Technology Group, AstraZeneca
09.55 – 10.25
High Resolution Accurate Mass Spectrometry: A Catalyst for Biomanufacturing Process Development
- A review of various methods and instrumentation, including the benefits and limitations for each in biomanufacturing.
- Top methods used in manufacturing setting for applications such as: Identification and sequencing of API, Host Cell Proteins, Impurities and Modifications of API, and Biosimilars.
- Regulatory views, including description of use/acceptance at each phase of drug discovery from pre-clinical through BLA.
- Future goals for multi-attribute monitoring, software compliance and standardization of practice.”
Sahil Shah, Operations Manager, Biologics, SGS
10.30 – 11.20
COFFEE BREAK & MEETINGS
11.20 – 12.10
Roundtable Discussions
For 6 to 10 participants (per roundtable) to discuss and debate on a topic of their choice
1. Future Directions for Accelerated Upstream Bioprocessing
2. Next Generation Downstream Processing
3. Process Intensification, Automation, Data Analytics, and PAT
4. Digitalisation and Automation for Acceleration of Bioprocess Development
5. Enhancing Productivity and Performance with Next-Generation Technologies
6. Best Practices In CMC Development And Effective Technology Transfer
7. Sustainability in Biopharma
12.10 – 13.40 One to One Meetings & Investment Areas
- Downstream/Upstream Process Technology Platforms
- Biopharma 4.0
- Digitalization
- Specialised cell culture media
- Single-use & Disposable Technologies
- Separation and Purification Technology
- Virus Filtration Processes
- Smart Manufacturing Technologies – Tech. Transfer
- Chromatography
- Facility Management & Integration
- Biopharma & Modular Biosafety Technology
- Capacity & Facility Design
- Multi product facilities
- Fluid Management Systems
- Lean/Operational Excellence
- Continuous Improvement
- PAT & MES, Automation and Process Control Excellence
- QbD, Quality Assurance & Quality Systems
- Validation Process/Life cycle Management systems
- Regulation – Rapid Release Testing
- cGMP – Contract, External Manufacturing Services
- Biogenerics/Biobetters
- Personalised Medicines
- Cell & Gene Therapy
- Fill and finish
- Microbial Process Development and Production
12.10 – 12.40
How new affinity resins can address growing complexities in downstream protein purification.
- 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.
12.40 – 13.10
From Discovery to the Rentschler Biopharma Manufacturing Center (RBMC)
- Client/CDMO partnership framework
- Reliability in the production of complex biopharmaceuticals
- Rentschler Biopharma, Milford: From single-product to multi-product…and into the future!
- Scientific capabilities and expertise (molecules, bioreactors, and processes)
- ONE Rentschler
13.10 – 13.40
Entering A New Age in Modular BioPharma Manufacturing
- A Paradigm shift in terms of flexibility, cost-efficiency and environmental sustainability
- Building a Sustainable Business Case: How Modular Manufacturing can help BioPharma cut costs and ease supply chain pressure
- How to get maximum flexibility using a Standardized design without comprising on Quality
- Connecting the individual stakeholder “links” to create a robust value chain
- How the digitization of products and processes is a key enable for taking modular construction to the next level
13.40 – 14.30
NETWORKING LUNCH
Downstream Processing
Chairperson: Michael Coolbaugh , Associate Director Purification Process Development, Sanofi
14.30 – 15.00
Acceleration of downstream process development of both platform and non-platform molecules by adopting a HTS (High Throughput Screening) DoE approach using an automated 96 well HTS platform.
- HTS can be used to rapidly develop downstream processes for molecules with a poor platform or no platform fit, so that we can choose the best molecule rather than eliminate it due to platform fit considerations.
- With the right types of controls, yield and some impurity data from 96well seperations can be closely approximated to what is observed in traditional scale-down packed be chromatography.
- Regeneron’s HTS platform greatly accelerates the development of early-stage clinical processes allowing for a “speed-to-clinic” approach.
- HTS screening can be used to accelerate mechanistic model development to potentially replace scaled-down packed DoE’s.
James Reilly, Associate Director, Downstream Process Development, Regeneron
Upstream Processing
Chairperson: Louis Boon, CSO, JJP Biologics
14.30 – 15.00
Design of Experiments and Modelling for Process Characterisation Studies
- DoE as a tool to optimise process characterisation studies
- Points of attention for the statistical analysis plan
- Acceptance criteria to define CPPs/PARs
- Case study from upstream process development
Alexandre Super, Lead Statistician CMC Development, UCB Pharma
15.00 – 15.30
Continuous Bioprocessing: Creating the next-generation UF/DF
- We developed a novel one-step process for continuous ultrafiltration (UF) and buffer exchange, eliminating the traditional two-step UF/diafiltration (DF) operations.
- Demonstrated mAb productivity 75% reduction in buffer consumption
- Single-pass buffer exchange, and salt removal using the commercially available hollow-fiber
- A natural successor to current state-of-the-art UFDF technologies for biologicals
Ujwal Patil, Associate Director Continuous Downstream/Next Gen Manufacturing, AstraZeneca
15.00 – 15.30
Transforming traditional cell culture process development with insilico solutions
- Establishing a generic insilico model for cell culture processes.
- The impact of generic models on cell culture productivity and quality over multiple programs.
- Can Insilico modelling significantly improve process development over traditional approaches?
- What gains can we achieve by applying insilico modelling to early or late-stage programs?
Dr. Sarwat Khattak, Head of Cell Culture and Cell Line Development, Biogen
15.30 – 16.00
Inline Buffer Formulation (IBF) – Lonza’s Experience
- Inline Buffer Formulation (IBF) Systems are versatile with on demand formulation and dilution capabilities.
- IBF systems can maintain a target formulation temperature while also controlling to a target pH and/or conductivity. The system can also control formulation using flowrate alone.
- When applied to maximize benefits, significant reductions in plastic waste, process equipment, facility footprint, and resources required can be achieved.
- Real world output of 2x – 4x protein production using ~50% of footprint when compared to a traditional facility.
- Inline pH measurement/control accuracy in some scenarios has proven challenging and alternate control options have been identified.
Matthew Macknight, MSAT Manager, Lonza Biologics
15.30 – 16.00
Application of Digital Modelling in New Product Introduction (NPI) into Commercial Facility
- Digital modeling has been used to de-risk and facilitate successful NPI activities.
- Case studies of using CFD and cell culture digital twin modeling will be presented.
- Modeling provides recommendations on equipment and control strategies.
- This helps to reduce at-scale tests and achieve the right first time tech transfer/scale up.
Yuanyuan Cui, Principal Engineer, Sanofi
16.00 – 16.50
COFFEE BREAK & MEETINGS
16.50 – 17.50 One to One Meetings & Investment Areas
- Downstream/Upstream Process Technology Platforms
- Biopharma 4.0
- Digitalization
- Specialised cell culture media
- Single-use & Disposable Technologies
- Separation and Purification Technology
- Virus Filtration Processes
- Smart Manufacturing Technologies – Technology Transfer
- Chromatography
- Facility Management & Integration
- Biopharma & Modular Biosafety Technology
- Capacity & Facility Design
- Multi product facilities
- Fluid Management Systems
- Lean/Transformational Change – Operational Excellence
- Continuous Improvement / Manufacturing Processing
- PAT & MES, Automation and Process Control Excellence
- QbD
- Quality Assurance & Quality Systems
- Validation Process/Life cycle Management systems
- Regulation – Rapid Release Testing
- cGMP – Contract, External Manufacturing Services
- Biogenerics/Biobetters
- Personalised Medicines
- Cell & Gene Therapy
- Fill and finish
- Microbial Process Development and Production
16.50 – 17.20
Doubling the yield of perfusion processes: Process intensification & simplification with Vibro® Membrane Filtration (VMF)
- VMF: Unveiling new opportunities for upstream & downstream processes
- Novel cell retention device: Achieving higher cell density and reducing membrane fouling
- Streamlining processes by eliminating steps such as centrifugation and high-speed separation
- Commitment to sustainable development and production, including a 90% reduction in energy consumption.
17.20 – 17.50
A Multi-Column Chromatography Proof of Concept: Consistent Performance in Multi-Column Chromatography and Scale-up
- While MCC is known to dramatically increase productivity and decrease operating costs, practical implementation concerns remain, including consistency over the purification process.
- We demonstrate that mAb and mAb-fragment capture MCC can achieve recovery, product quality, and purity that has low variability across both cycles and elutions and is comparable to single column chromatography.
- MCC rapidly reuses multiple smaller columns over numerous cycles, while the equivalent process and load volume in single column mode would have comparatively few cycles. Concerns exist not just about overall performance comparability between single column and MCC, but also if MCC is able to maintain performance over the entirety of the run.
- We present lab scale data that demonstrates that, after basic process development, 1) MCC maintains performance at the cycle level up to 50 cycles for mAb ProA capture and 2) individual elutions are consistent over the 15 individual elutions evaluated and comparable to batch for fAb ProL capture. In addition, we present a proof of concept demonstrating successful scale-up to a ~250 L process volume, which was performed in collaboration with our CDMO partner, Catalent.
Downstream Processing
Chairperson: Michael Coolbaugh , Associate Director Purification Process Development, Sanofi
Upstream Processing
Chairperson: Louis Boon, CSO, JJP Biologics
17.50 – 18.20
Process Intensification Technologies Using In-line concentrators for High Titer mAb processes
- Using initial capture as an example, look at current landscape of purification options available and how to evaluate
- Consider if non Protein A option(s) may be useful to integrate into a DSP development toolbox
- Making effective use of process and cost models, within DSP development, to support decision making
- Impact of covid pandemic on purification development
Sanjay Nilapwar, Principal Scientist/Group Leader, Abbvie
17.50 – 18.20
Decoding the metabolic regulations that govern metabolic shift to lactate consumption in CHO fedbatch processes: The role of TXNIP
- Lactate shift in CHO cell fedbatch processes is elusive in nature – mechanism governing it yet to be deciphered fully
- We previously demonstrated TXNIP expression to be correlated with propensity of metabolic shift and identified several factors that induce TXNIP in CHO fedbatch processes
- This talk will go over recent findings to establish TXNIP role in metabolic shift using genetic engineering approaches.
Madeleine Rafa, Senior Scientist, Pfizer
18.20 – 18.50
CT Manufacturing and AI
- CMC is bottleneck for Cell Therapies
- Manufacturing platforms are being developed
- What can be the role of AI
Oliver Hesse, VP & Head of Biotech Data Science & Digitalization, Bayer
18.50
CHAIRPERSON’S CLOSING REMARKS AND END OF DAY ONE
18.55
Networking drinks reception
DAY TWO
08.25 – 08.30
CHAIRPERSON’S OPENING REMARKS FOR DAY TWO AND SUMMARY OF DAY ONE
Francis Torres, Head of Drug Substance Manufacturing Biologics – US Mammalian Platform, Global CMC Development, Sanofi
08.30 – 09.00
Evolutionary pressure: advancement of bioprocessing platforms in a diverse pipeline environment
- Platform intent and defining the approach a platform can take (ex: ranging from single process run identically for each asset to high level standardized approaches to development, early vs late stage application, etc)
- Benefits of platforms, but also potential down sides of over-defining
- Overview of Takeda’s unique pipeline and the balance we have struck on platform establishment and application (includes case studies)
- Platform evolution and incorporation of new technologies: how to evaluate and decide, when and how to introduce, successes and pitfalls (includes case studies)
Olga Paley, Director, Head mAb Derived Biologics Process Development,Takeda
09.00 – 09.30
Transforming Cell Culture Process Development with Industry 4.0: Integrating automated screening and hybrid modelling approaches to jump start process development
- Data analytics are usually presented as the data power brought by digital to process understanding or development.
- This technology significantly impacts processes once deployed and pretty often, driven through large projects, very few but experts understand what it would change in their direct environment.
- This presentation will highlight not only the power of the technology, but how it may actually impact your professional life in so many diverse activities, day after day.
Eric Hodgman, Scientific Director, Bristol Myers Squibb
09.30 – 10.00
Innovative analytical strategies for addressing common problems for new molecular format CMC development focusing on BLA: Process Characterization (Drug Substance)
Complex next generation biological molecules are becoming increasingly prevalent in today’s biopharmaceutical manufacturing landscape. Such molecules present unique challenges, due to their complex structures and heterogeneity, when compared with traditional antibody formats. Through case studies, this presentation will highlight innovative analytical strategies for addressing common problems during product development such as chain assembly, multiple-MoAs and diverse post-translational modifications
Penny Douglas, Principal Scientist, Lonza
Bioprocess Innovation
Chairperson: Olga Paley, Director, Head mAb Derived Biologics Process Development, Takeda
10.00 – 10.30
Process Characterization and Control Strategy Platform Development
- Accelerated clinical process development and CMC timeline
- Downstream process characterization workflow and case study
- Leverage prior knowledge to simplify process characterization design
- Approach on downstream Tier 1 and Tier 2 process characterization to enable PPQ and BLA
- Control strategy platform development for robust manufacturing
- Modelling consideration on future process characterization
Lihua Yang, Senior Principal Research Scientist, AbbVie
CMC Development/Technology Innovation
Chairperson: Ishaan Shandil, Associate Director Process Engineering, MSAT, Bristol-Myers Squibb
10.00 – 10.30
Smart CMC: Concepts and strategies
- What is smart CMC
- Importance of CMC governance
- CMC is a process
- CMC is phase appropriate
Siddhartha Shrivastava, Vice President, Head of CMC and Global Technical Operations, Cue Biopharma
10.30 – 10.55
COFFEE BREAK & MEETINGS
11.00 – 11.45
Roundtable Discussions
For 6 to 10 participants (per roundtable) to discuss and debate on a topic of their choice
- Future Directions for Accelerated Upstream Bioprocessing
- Next Generation Downstream Processing
- Process Intensification, Automation, Data Analytics, and PAT
- Digitalisation and Automation for Acceleration of Bioprocess Development
- Enhancing Productivity and Performance with Next-Generation Technologies
- Best Practices In CMC Development And Effective Technology Transfer
- Sustainability in Biopharma
11.45 – 13.15 One to One Meetings & Investment Areas
- Downstream/Upstream Process Technology Platforms
- Biopharma 4.0
- Digitalization
- Specialised cell culture media
- Single-use & Disposable Technologies
- Separation and Purification Technology
- Virus Filtration Processes
- Smart Manufacturing Technologies – Technology Transfer
- Chromatography
- Facility Management & Integration
- Biopharma & Modular Biosafety Technology
- Capacity & Facility Design
- Multi product facilities
- Fluid Management Systems
- Lean/Transformational Change – Operational Excellence
- Continuous Improvement / Manufacturing Processing
- PAT & MES, Automation and Process Control Excellence
- QbD
- Quality Assurance & Quality Systems
- Validation Process/Life cycle Management systems
- Regulation – Rapid Release Testing
- cGMP – Contract, External Manufacturing Services
- Biogenerics/Biobetters
- Personalised Medicines
- Cell & Gene Therapy
- Fill and finish
- Microbial Process Development and Production
11.45 – 12.15
Freeze Failure: Stop the Loss, Control Your Biologics’ Quality!
How can modular and yet universal freezing technologies improve product quality of your drug substances during cold chain logistics?
- Discover possibilities to avoid product loss and sustain best possible product quality with controlled freezing solutions
- Learn how far scalable freezing can go in a manufacturing environment through a case study
- Understand indications of a successful freeze/thaw cycle and cryopreservation
12.15 – 12.45
Enabling Flexible Manufacturing with High Productivity Protein A Membrane up to 2000 L Scale
- 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.
12.45 – 13.15
Beyond Modular Design-Build Construction: Customizing the Digital QC Lab
- Just as vital as determining how to construct a cGMP accredited facility—whether a Modular or Stick-built architecture—is a forward-thinking plan that considers functionality within the validated state.
- Most facilities are restricted by the real estate they are given, and thus it is crucial that their space programming plan considers Process Design, Qualification, and Sustained Verification long before the facility is commissioned.
- A large part of that is designing clean environments to accommodate SOPs.
- But a glaring void in the Design-Build sector remains, where service providers fail to offer and integrate the latest IoT solutions to monitor, store, and analyze critical data.
- The evolution of Design-Build Construction is guiding clients into the direction of the Digital QC Lab, the “paperless state,” where building cleanrooms is simply the first phase of an ongoing Validation and Sustainability program.
13.15 – 14.05
NETWORKING LUNCH
Bioprocess Innovation
Chairperson: Olga Paley, Director, Head mAb Derived Biologics Process Development, Takeda
14.05 – 14.35
Digital Strategy In Action: Building Strong Foundations
- Developing a clear, aligned strategy
- Change is constant – will you be reactive or proactive?
- Prioritizing big and small projects
- Managing with limited resources
- Recognizing and celebrating success
Michael O’Connor, Senior Manager, BioProcess R&D Digital Program, Pfizer
CMC Development/Technology Innovation
Chairperson: Ishaan Shandil, Associate Director Process Engineering, MSAT, Bristol-Myers Squibb
14.05 – 14.35
PAT to facilitate monitoring and control of biologics continuous manufacturing
- Significance of continuous manufacturing in biologics
- Importance of timely monitoring and process control in biologics continuous manufacturing
- PAT toolbox for supporting biologics continuous manufacturing
- PAT implementation cases in monitoring and control of biologics continuous manufacturing in Merck
Boyong Wan, Associate Principal Scientist, Merck
14.35 – 15.05
Micro-scale Purification Platform – Highthroughput tool for BioPharma Manufacturing Investigations
- Process characterization
- Justification of process and microbial control
- Hold time studies
- Reprocessing
Manoj Ganesh, Senior Staff Process Scientist, Regeneron
14.35 – 15.05
Advanced Technology-Transfer Strategies for GMP manufacturing of Biologics Drug Substances
- Current industry challenges in clinical GMP tech-transfers across modalities.
- Development of tech-transfer workflow as a business process from process development to pilot and pilot to clinical GMP manufacturing.
- Generation of process and modality specific process transfer protocols.
- Transition to complete digital tech-transfers.
Rajat Sharma, Staff Engineer, Biotherapeutics process development
Sudheer Yanamadala, Senior Staff Engineer, Takeda
15.05 – 15.35
Accelerating the Development of New Molecular Formats: Speed to Clinic
- Outlining the most pressing challenges of analytical development of novel molecular biologic formats.
- Highlighting how some of these key challenges can be addressed with example case studies.
- Providing an overview of how an end-to-end integrated drug substance and drug product CMC strategy can be used to accelerate the path of a novel molecules to IND.
Anasuya Dilaver, Associate Principal Scientist, Lonza
15.35 – 15.55
COFFEE BREAK
15.55 – 16.25
Open Panel Discussion: Current Bioprocess Innovation Trends for more efficient bioprocessing
- Improvement in process economics in upstream and downstream processing
- Redefining and simplifying biologics manufacturing process to efficiently capture contaminants and enhance productivity and performance with next-generation technology
- Development and deployment of AI and Automation for process development for improved management of data and easier and better insight into process data
- The evolution of biomanufacturing talent
- Sustainability in Biopharma – from challenges to opportunities
Chairperson:
Francis Torres, Head of Drug Substance Manufacturing Biologics – US Mammalian Platform, Global CMC Development, Sanofi
Panel Members:
Olga Paley, Director, Head mAb Derived Biologics Process Development, Takeda
Patrick Cushing, Senior Director, Process Science, Rentschler Biopharma Inc.
Dr. Sarwat Khattak, Head of Cell Culture and Cell Line Development, Biogen
Carrie Mason, Head of the Process Innovation Center, Lonza Biologics R&D
16.25
CHAIRPERSON’S CLOSING REMARKS
16.30
CLOSE
Please Note: Workshop Agenda and Speakers can be subject to change