Modernizing upstream development to advance and accelerate process understanding and CMC excellence

• Traditional upstream development is changing with advances in modelling and sensors.
• Real time product quality data- how often and how well can this be achieved?
• PAT tools that support process development modernization
• Creating a CMC data package with AI, smart templates, and regulatory intelligence

Sarwat Khattak, Head of Cell Culture and Cell Line Development, Biogen

Designing an optimal Protein A resin for downstream processing of antibodies

The history of agarose-based chromatography beads goes back to the middle of the last century and reflects a continuous evolution driven by scientific innovation and practical needs. From their origins in basic gel filtration to their status as essential tools in advanced bioprocessing, agarose beads have enabled countless breakthroughs in life science industry. This presentation will discuss:

• Critical performance parameters when designing new agarose resins.
• Development, characterization & biomolecule application data for two Protein A affinity resins and other functionalized resins will be discussed.

Pharma 4.0 in Action: Unlocking the Value of Unified Life Sciences Eco-system

The pharmaceutical industry is embracing Pharma 4.0 and digital transformation to improve efficiency, compliance, and agility. This session explores how unified life sciences and MES solutions address disconnected systems, regulatory demands, and operational inefficiencies while fostering collaboration and continuous improvement.

• Leverage unified manufacturing system to streamline operations, enhance compliance, and drive digital transformation in Pharma 4.0.
• Overcome challenges related to disconnected systems, regulatory requirements, and operational inefficiencies through an integrated approach.
• Foster cross-team collaboration to improve agility, meet evolving market demands, and establish a framework for continuous improvement.

Accelerating Bioprocessing with 3M™Harvest RC: A joint Implementation Success by Solventum and CDR-Life

• In today´s dynamic biopharmaceutical environment, manufacturers face growing pressure to optimize upstream processing steps while maintaining product quality and regulatory compliance
• One critical area is cell culture clarification – the removal of cells, cell debris, and soluble impurities from harvested cell culture fluid prior to downstream processing.
• Solventum and CDR-Life successfully collaborated to rapidly implement the innovative chromatographic clarification solution that replaces conventional depth filtration methods. 3M™ Harvest RC Chromatographic Clarifier efficiently separates cells, cell debris and DNA from the harvested cell culture fluid containing the target product in a single-stage clarification step, utilizing Q-chemistry grafted nonwoven media.
• The rapid adoption of 3M™Harvest RC in an established process environment was achieved significantly faster than typical technology changeovers.
• Key benefits during implementation included significant time saving in the harvest phase, improved filtrate quality, reduced DNA levels, and a simplified clarification step.
• Importantly, these gains were realized without requiring major changes to the existing equipment or process layout, highlighting the plug-and-play nature of the technology.

Improving the efficiency and productivity of biologics manufacturing across scales with intensified fed batch (iFB) capabilities

• Process intensification as part of a broader shift toward faster, more efficient biologics manufacturing
• How intensified fed?batch (IFB) improves productivity, reduces cost of goods, and enables difficult?to?express molecules
• Lonza adoption of PAT drives ability for intensification of next-gen biologics
• Converting traditional fed?batch processes to IFB while preserving product quality and comparability
• Learnings from scaling IFB from development through commercial manufacturing
• Practical considerations for deploying IFB across different molecule types and lifecycle stages

Carrie Mason, Head of Process Analytical Technologies, Lonnza

Matching Medium and Process

• Increase of volumetric productivity exceeds all initial expectations in the field
• Fed-batch, intensified fed-batch and perfusion processes made it to the manufacturing
• Both, medium and process contributed to the strong gain in volumetricproductivity
• Media optimization tailers the medium to the specific process needs
• Case studies for a perfusion medium will be presented and challenges discussed

Martin Jordan, Senior Scientist, Merck Group

Scalable Harvest Solutions to New Challenges from Process Intensification

• Upstream process intensification via n-1 perfusion reactor technologies can bring significant benefits and titer uplift to biologics
• Increased output on upstream processes pose new challenges on downstream processing capacity and equipment
• The deployment of single-use centrifuge can improve throughput, lower impurity burden, reduce waste and overall COGs
• Pilot case study and real data for 1k, 2k bioreactor GMP

Brendan Moore, Senior Cell Culture Engineer II, Biogen

Transforming Bioprocessing with AI & Model-based Intelligence

• Process development remains very resource and cost-intensive, with the industry relying on traditional DoE methods and extensive wet lab work to build process understanding.
• The application hybrid models and AI-enabled technologies represent a transformative opportunity to change this paradigm, by significantly reducing the number of experiments required, accelerating process understanding, and enabling risk-informed decisions that support the entire development workflow.
• Embedding these technologies within an optimal development workflow, in the manner of a PDCA style loop, democratizes process knowledge creation and ensures that the industry can systematically build knowledge at scale.
• The application and impact of these technologies and methods are highlighted through a series of industrial use cases, across the full development cycle

Unlocking Speed, Flexibility, and Hidden Value in Downstream Manufacturing

Column packing is often seen as routine, but at scale it can become a bottleneck, affecting timelines, costs, and flexibility. This talk explores outsourcing column packing as a strategic approach, including how to evaluate partners and enable more agile, scalable manufacturing. We will share examples from small- and large-scale operations, focusing on challenges with difficult resins and how a modular, service-based model can reduce operational burden. We will also highlight the economic potential of resin recovery, showing how small gains can lead to meaningful cost savings across manufacturing networks

• The true impact of column packing on throughput, scheduling, and cost of goods at manufacturing scale
• When and why to outsource: practical decision frameworks across clinical and commercial operations
• Ensuring performance and consistency: overcoming challenges with difficult-to-pack resins
• Enabling flexible, scalable manufacturing through modular and pre-packed column strategies
• Unlocking hidden value: how resin recovery and improved utilisation can deliver meaningful cost savings