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Detecting & Removing Aggregates

Biological products such as monoclonal antibodies (mAbs) are prone to protein aggregation during production. Aggregation leads to challenges in the production environment, impacting the efficiency of purification operations. More importantly, it can lead to drug safety concerns for patients; high levels of aggregates can over-stimulate the patient’s immune system, resulting in adverse responses. For these reasons, the aggregate level in drug products is considered a critical quality attribute, and aggregate control throughout both upstream and downstream processing is a focus area for biomanufacturers. 

Aggregates are formed by association of multiple protein molecules (multimers) held together permanently or reversibly. They range from as few as two to many associated protein molecules.

Aggregate control starts with clone selection upstream and continues downstream with careful control of elution from capture chromatography and incubation in low pH viral inactivation steps. Excipients and stabilizers can be used to minimize aggregate formation while chromatographic steps downstream are used for efficient aggregate removal. The efficiency of some downstream operations such as virus filtration can be significantly impacted by the presence of aggregates, and adsorptive prefiltration is often used to minimize batch-to-batch variability and enhance process robustness.  

Approaches to minimize aggregate formation include:

  • Molecule and cell line manipulation
  • Careful selection of process consumables and excipients
  • Optimization and control of process parameters

Minimizing aggregates improves process efficiency, at a time when flexibility and speed to market are increasingly important.

Related Webinars

Product Aggregation in Bioprocessing: Origins, Prevention, and Removal
IEX Chromatography: How to Get the Most out of Your mAb Process 
Perfusion-based Bioprod Applications 
Optimizing viral clearance filtration with prefilters 

      Related Videos

      Slide 1 of 5
      • Upstream
        Upstream
        Michael A. Cunningham, Ph.D., Associate Director, Applications Engineering, focuses on how upstream unit operations including clone selection, process optimization such as nutrient optimization and oxygen availability can impact monoclonal antibody aggregation in your process.
      • Affinity and Ion Exchange Chromatography
        Affinity and Ion Exchange Chromatography
        Santosh B. Rahane, Ph.D, Senior Research Scientist, addresses the removal of mAb aggregates from monomeric products using protein A affinity, cation exchange (CEX), and anion exchange (AEX) chromatography steps in both bind/elute and flow through modes.
      • Virus Filtration
        Virus Filtration
        David Bohonak, PhD, Senior Applications Engineer, speaks about the effects of protein aggregation on virus filtration. The types of aggregates, considerations for viral clearance studies, and the use of adsorptive prefiltration for aggregate removal are discussed.
      • Ultrafiltration/Diafiltration (UF/DF)
        Ultrafiltration/Diafiltration (UF/DF)
        Emily Peterson, Senior Biomanufacturing Engineer, discusses how careful selection of operation conditions and Tangential Flow Filtration (TFF) system design impacts aggregate formation within the UF/DF process.
      • Final Formulation
        Final Formulation
        Christoph Korpus, Liquid Formulation Stability, focuses on monoclonal antibody aggregation highlighting liquid formulation stability through the use of excipients and the importance of high quality chemicals.

      Workflow

      Scientists in lab

      Monoclonal Antibody Manufacturing

      Increased process understanding has led to advancements in mAb manufacturing that include efficiencies in both upstream and downstream processing

      Upstream

      The upstream process begins with cell line development and includes all steps up to cell harvest, with the goal of increasing cell densities and product titers to maximize mAb production 

      Downstream

      From cell harvest through final filling into vials, the comprehensive focus of downstream bioprocessing is on purification while controlling bioburden and assuring viral safety, in order to provide confidence in drug safety for patients

      Final Filtration and Filling

      Final filling of drug products must meet stringent requirements for sterility, integrity, cleanliness, operational safety, and efficiency 

      Viral Safety

      Based on the principles of “prevent, detect, and remove,” viral safety combines risk analysis with careful selection of raw materials, extensive testing of raw materials and process intermediates, and implementation of virus reduction steps in downstream processing

      Bioburden Control

      All mAb production processes are at risk for microbial contamination, requiring a process design with control strategies to mitigate the risk, as well as bioburden monitoring to assure process control

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