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Adsorbed protein film on pump surfaces leads to particle formation during fill‐finish manufacturing

Kirk Roffi, Li Li, Jacob Pantazis

2021Biotechnology and Bioengineering16 citationsDOI

Abstract

During fill-finish manufacturing, therapeutic proteins may aggregate or form subvisible particles in response to the physical stresses encountered within filling pumps. Understanding and quantitating this risk is important since filling may be the last unit operation before the patient receives their dose. We studied particle formation from lab-scale to manufacturing-scale using sensitive and robust protein formulations. Filling experiments with a ceramic rotary piston pump were integrated with a rinse-stripping method to investigate the relationship between protein adsorption and particle formation. For a sensitive protein, multilayer film formation on the piston surface correlated with high levels of subvisible particles in solution. For a robust protein formulation, adsorption and subvisible particle formation were minimal. These results support an aggregation mechanism that is initiated by adsorption to pump surfaces and propagated by mechanical and/or hydrodynamic disruption of the film. The elemental analysis confirmed that ceramic wear debris remained at trace levels and did not contribute appreciably to protein aggregation.

Topics & Concepts

Particle (ecology)AdsorptionPiston (optics)CeramicMaterials scienceParticle aggregationChemical engineeringParticle sizeSurface finishChemistryComposite materialNanotechnologyNanoparticleOrganic chemistryOpticsOceanographyWavefrontPhysicsEngineeringGeologyProtein purification and stabilityPolymer Surface Interaction StudiesMicrofluidic and Bio-sensing Technologies
Adsorbed protein film on pump surfaces leads to particle formation during fill‐finish manufacturing | Litcius