2024 ARCHIVES
Tuesday, 19 March
Registration and Morning Coffee07:00
Chairman's Remarks
Anthony Ting, Chief Scientific Officer, Kiji Therapeutics, Chief Commercialization Officer and Board Member, ISCT
Standards Can Facilitate Cell Therapies' Product Development
Fouad Atouf, PhD, Senior Vice President, Global Biologics, USP
Standardisation enables the adoption of new technologies used in the manufacturing and testing of emerging therapies. In this presentation, we will share information on standards-setting activities at the United States Pharmacopeia (USP) and the type of tools and solutions to support implementing quality principles from early stages of cell therapy development, to manufacturing, and release of these products to patients. Cases studies on recently released standards, will be discussed.
Adventitious Agent Controls for Biological Raw Materials
Christopher Bravery, PhD, Consulting Regulatory Scientist, Advanced Biologicals Ltd.
Compared to other medicinal products, cell therapy products (including gene-modified) tend to use a lot of biological raw materials. These can be human, animal, microbial or even plant-derived. Without understanding how these materials are made, it is not possible to ensure their adventitious agent risks are addressed. Using real examples, this talk will discuss the princlples and how to assess and mitigate the identified risks.
Françoise de Longueville, Dr., Managing Director / Head of Core Test Lab, Eppendorf Application Technologies S.A.
This study explores the use of Single-Use Bioreactors for the long-term expansion of CD4+ T cells, central to adaptive immunity and cell therapies. It focuses on producing large quantities of high-quality T cells using stirred-tank bioreactors, providing a controlled cultivation environment. Additionally, the impact of different oxygen tensions on T cell proliferation is examined, highlighting the bioreactor's effectiveness in homogeneous T cell cultivation.
Grand Opening Coffee Break in the Exhibit Hall with Poster Viewing10:00
Digital Solutions for CMC Optimization
Stuart M Curbishley, PhD, Chief Manufacturing and Development Officer, adthera bio
Cell therapies are transforming the way diseases are treated. This presentation will discuss current challenges in cell therapy CMC optimization and how digital technologies are playing a key role.
A Strategy and Practical Case for Process Characterisation
Jean-Charles Epinat, PhD, Director, Process Development, Cellectis
Process characterization is a critical phase of process development supported by regulatory guidance for biologics development. Its experimental work plan aims at defining the design space for the process, secure a robust execution and ensure constant product quality. It is especially critical for cell therapies in general and is all the more crucial as they are now transitioning from the world of grafts, where they have grown for decades, into that of off-the-shelf pharmaceutical products. Cellectis pioneered the development and clinical use of allogeneic off-the-shelf CAR-T cells products to treat cancers. This approach is supported by a process platform where individual unit operations are assembled for each process/product version. Our pragmatic approach to characterize the UCART22-P2 process leveraged the deep knowledge gained over years and more than 2000 experiments. It helped locking production methods and control strategy very close to the original process flow. Each of the 260 operational parameters were investigated to determine their impact on product quality attributes and process performance. Critical Process Parameters (CPPs), Proven Acceptable Ranges (PARs) where then identified together with associated process changes. The work was undertaken with a platform approach paving the way for faster future studies supporting other products filling Cellectis’ pipeline.
KEYNOTE PRESENTATION: Process Development to Improve the Quality and Yield of TCR T Cells for Solid Tumors
Ali Mohamed, PhD, Senior Vice President, CMC, Immatics US, Inc.
IMA203 & IMA203CD8 are Immatics’ TCR-T product candidate(s) using a PRAME-specific TCR with or without a CD8 co-receptor. The manufacturing process for GMP-compliant production of TCR T cells products for various clinical trials has been developed in our process development laboratory and transferred to the GMP facility. Manufacturing improvements enhanced key features of the cell product. Continuous enhancements are in progress in preparation of later-stage clinical trials.
Johann Christoph Dettmann, PhD, Senior MSAT Clinical Products, Lentiviral Vector Manufacturing, Miltenyi Biotec B.V. & Co. KG
This talk explores our innovative approach for robust lentiviral vector manufacturing, emphasizing a QbD strategy. Adhering to stringent regulatory requirements for Process Performance Qualification to facilitate commercialization, we employed DoE during Stage 1 Process Design to enable comprehensive process characterization for identifying CPPs and establishing PARs. This talk contributes to the scientific discourse on advancing manufacturing practices for lentiviral vectors, emphasizing a rational and effective approach to process development.
Networking Lunch (Sponsorship Opportunity Available)12:45
Chairperson's Remarks
Angela Osborne, PhD, CEO & Founder, eXmoor Pharma Concepts Ltd.
As cell therapy products reach the market the conversation is changing from "can you manufacture it" to can you manufacture it suitable for millions of patients compared to hundreds. The role of local academic/hospital GMP centres which got the industry started, continues to be important but alternative solutions are needed for therapies to reach all patients who need them once they are approved.
Opportunities and Challenges of a Decentralized Manufacturing Network – A Small Biotech’s Perspective
Christopher Baldwin, Vice President, Manufacturing and Supply, Resolution Therapeutics
Resolution Therapeutics is developing a macrophage cell therapy to treat inflammatory organ disease. This presentation will discuss the challenges and opportunities of implementing a decentralized manufacturing strategy in a phase appropriate manner and the associated benefits and risks in providing patients with access to quality advanced therapeutics
Overcoming Conventional CGT Processing Challenges with Point-of-Care (POCare) Solutions
Vered Caplan, CEO, Octomera and Orgenesis
This presentation will highlight how POCare solutions leveraging the latest technology and data advances can overcome conventional CGT processing challenges and enable standardization. By working to develop closed, automated, and reproducible processes, it is possible to bring treatments closer to patients either at or within hours of local hospitals and treatment facilities. The mission is to decentralize and standardize production of these innovative therapies so that they are more affordable and accessible to patients across the globe and not just in major (or wealthier) markets.
Large-Scale Facility or Decentralised Manufacturing?
Stephen Judd, Process Subject Matter Expert, Biologics, Cell and Gene Therapy, DPS Group Global
The scale of cell therapy manufacturing operations, particularly autologous processes, brings new challenges and opportunities in the way that these therapies are produced. The traditional approach of having large-scale commercial manufacturing facilities brings fresh challenges in relation to CoGs and logistics considerations. This creates opportunities for decentralised manufacturing which has significant potential and its own challenges with respect to ensuring suitably designed and regulatory compliant manufacturing areas.
Innovative Strategies for a More Robust (yet Adaptable, Accessible, and Cost-Effective) Global Advanced Therapies Supply Chain
Lee Buckler, Senior Vice President, Advanced Therapies, Blood Centers of America
Cell therapies require unique and complex starting material, production, and affordability supply chain challenges. This presentation will discuss innovative strategies being tested and employed to optimise the production and delivery of these therapies to patients in community settings—outside of large urban research centers—across the globe.
The Role of Decentralised vs. Centralised Manufacturing
The role of local academic/hospital GMP centres which got the industry started, continues to be important but alternative solutions are needed for therapies to reach all patients who need them once they are approved.
Kathryn Golden, SVP Technical Operations & Cell Manufacturing, Tech Operations & Cell Mfg, bit bio
Refreshment Break in the Exhibit Hall with Poster Viewing15:50
FEATURED PRESENTATION: Identifying and Overcoming Challenges to Ramp Up Global CAR T Production Capacity
Sarah Snykers, PhD, Director of Operations, Legend Biotech
This presentation will provide insight on Legend BioTech’s tech transfer strategy to support its manufacturing process, how the company created and currently manages a global CAR T manufacturing footprint, and its approach to identifying and overcoming challenges to ramp up production capacity.
Considerations of the Selection Criteria of Starting Materials and Bioprocess Design in the Scale-Up Production of MSC-Based Therapies
Joaquim Vives, PhD, Head of Production, Advanced Therapies, Banc de Sang i Teixits
Optimisation of scale up manufacturing strategies for the production of cell-based therapies requires the establishment of robust criteria for elegibility of human origin starting materials and reliable bioprocess designs. In this presentation, we will present the strategy followed in our laboratory for the production of Mesenchymal Stromal Cells derived from the Wharton's jelly of the umbilical cord. Our approach involves the use of microcarriers and single use bioreactors.
TechOps and Manufacturing Excellence in Cell Therapy
Christopher Crowell, Vice President Operations, Site Head EU Manufacturing and Managing Director, Kite Pharma, a Gilead Company
Chris Crowell, Kite's vice president of operations, site head EU manufacturing and managing director provides his insights and perspectives into unique processes and challenges in the manufacturing of cell therapies; Kite’s manufacturing network and delivery of cell therapies to eligible patients across Europe and the world; and the importance of site qualification and teamwork throughout the full cell journey.
Exclusive Fireside Chat with Chris Crowell
Chris sits down 1:1 with moderator Lee Buckler to share his personal experiences and advice focusing on: (1) Building on existing capabilities to meet increasing patient demand; (2) Delivering innovative therapies in Europe - barriers to access CAR T-cell therapy; (3) The next chapter in commercializing cell therapies.
ISCT PANEL DISCUSSION: Allogeneic Productivity and Technologies: Unique Challenges - Common Threads
This panel representing biopharma and technology providers will deep-dive and discuss challenges and solutions to overcome allogeneic development and manufacturing challenges, including: (1) batch logistic strategies; (2)improving operator skill levels; (3) design facility footprint; (4) addressing operational constraints; (5) process optimisation; (6) increasing batch potency; (7) technology gaps; and (8) implementing AI, ML, and automation.
Cenk Sumen, PhD, Advisor, MaxCyte Inc.; PDM Committee Member, ISCT
Julie G. Allickson, PhD, Michael S. and Mary Sue Shannon Family Director, Mayo Clinic Center for Regenerative Medicine, Member, ISCT
Robert Allen, PhD, Principal, Dark Horse Consulting
ISCT Panel Discussion: Autologous Productivity and Technologies: Unique Challenges-Common Threads
This panel representing biopharma and technology providers will deep-dive and discuss challenges and solutions to overcome autologous development and manufacturing challenges, including: (1) batch logistic strategies; (2)improving operator skill levels; (3) design facility footprint; (4) addressing operational constraints; (5) process optimisation; (6) increasing batchpotency; (7) technology gaps; and (8) implementing AI, ML, and automation.
Dominic Clarke, Vice President of Technical Operations, IntegriCell; PDM Committee Chair, ISCT
Steven Binninger, Head of Collaborative Technology Development & Commercialisation, Sartorius; PDM Committee Member, ISCT
Welcome Reception in the Exhibit Hall with Poster Viewing18:30
Close of Day19:30
Wednesday, 20 March
Registration and Morning Coffee08:00
Klaus Graumann, PhD, CEO, Phoenestra GmbH
- Success stories and current issues
- Novel approaches, new technologies
- Time-to-clinics
- Cost of manufacturing
- Batch-to-batch consistency
- Quality and patient safety
Shorten Time-to-Clinic with Stable HEK 293 Lentiviral Vector Producer Cells
Rolf Werner, PhD, Professor, Industrial Biotechnology, University of Tuebingen
Gene and cell therapy are gaining more and more importance in efficient personalized precision medicine. From a manufacturing aspect, transient production of Lentiviral vectors for gene and cell therapeutics is fairly demanding in requiring chemical gene synthesis, plasmid DNA fermentation and purification, viral vector design and production via mammalian cell cultures such as HEK 293 cells, isolation of autologous human T-cells from the patient or engineering of allogenic T-cells, propagation of the T-cells and transfection with the viral vector carrying the gene of interest for a ligand on the T-cell surface targeting the T-cell to the tumor cell to express their cytotoxic effect. A short cut to Lentiviral vector transfection of T-Cells are stable HEK 293 packaging cell lines for explorative research of several transforming plasmids and stable HEK 293 producer cell lines for Phase III clinical trials and commercial manufacturing of autologous or allogenic T-Cells.An End-to-End CDMO for all required manufacturing technologies is advisable and facilitate the process chain if inhouse capabilities are limited.
Standardising Cryopreservation
Julia Neubauer, Head of Department, Cryo & Stem Cell Technology, Fraunhofer Institute, IBMT
Cryopreservation of iPS cells in large numbers or of functional, differentiated cells is also crucial for later success in therapy or other applications. Therefore, to meet the increasing demand in downstream applications, we have established robust, scalable cryopreservation protocols for iPS cells and several derivatives. This includes the use of large volume cryobags, ready-to-use formats and cryopreservation of tissue engineered products
Harnessing the Power of Cell Therapy—A Large Pharma's Approach to ATMP Development
Rakesh Koppram, Senior Scientist, Astra Zeneca
Cell therapy is a promising, rapidly advancing field with the potential to transform medicine across disease areas where significant need exists. This presentation will highlight the array of cutting-edge technologies Astra Zeneca is implementing to drive important advances in cell therapy, including gene editing to create ‘universal cells’ that can be given to any patient, and antibodies to target our cell therapies where they are needed most.
Rui Almeida, Director, Product Lifecycle Management Services, ValGenesis
This talk presents a digital loop leveraging ICH Q9(R1) and ICH Q13 regulatory packages, integrating process data acquisition (via CPV plan) and QRM systems, applied in the context of Continuous Manufacturing. This retrofitting digital loop enables companies to refine process control strategies supported by process insights and data, then incorporate them into a pre-defined formal structure, helping to build organizations with an agile data/knowledge-centric approach to risk management.
Coffee Break in the Exhibit Hall with Poster Viewing10:30
Chairperson's Opening Remarks
Alois Jungbauer, PhD, Professor & Head, Biotechnology, Institute of Bioprocess Science and Engineering, University of Natural Resources and Life Sciences (BOKU)
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.
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
Close of Cell Therapy CMC and Manufacturing Conference14:05
2025 Programs