Leiden University Scholarly Publications

Grabarek, A.D. (2021)

novel analytical approaches to characterize particles in biopharmaceuticals

Doctoral Thesis

Particles are omnipresent in biopharmaceutical products. In protein-based therapeutics such particles are generally associated with impurities, either derived from the drug product itself (e.g. protein aggregates), or from extrinsic contaminations (e.g. cellulose fibers). These impurities can affect product stability, as well as cause adverse effects once introduced into the human body. Particulate impurities are present over a wide range of sizes (from nanometers to millimeters) making them difficult to characterize by using a single method.

Novel drug products may also contain particles that act as the active pharmaceutical ingredient (e.g., living cells) or a drug delivery vehicle (e.g., lipid nanoparticles). Unwanted immunotoxicity and inconsistent in vivo functionality can result from particle instability and aggregate formation. Therefore, the efficacy and safety of these therapeutics is dependent on the particle composition, quantity and size distribution.
Show moreParticles are omnipresent in biopharmaceutical products. In protein-based therapeutics such particles are generally associated with impurities, either derived from the drug product itself (e.g. protein aggregates), or from extrinsic contaminations (e.g. cellulose fibers). These impurities can affect product stability, as well as cause adverse effects once introduced into the human body. Particulate impurities are present over a wide range of sizes (from nanometers to millimeters) making them difficult to characterize by using a single method.

Novel drug products may also contain particles that act as the active pharmaceutical ingredient (e.g., living cells) or a drug delivery vehicle (e.g., lipid nanoparticles). Unwanted immunotoxicity and inconsistent in vivo functionality can result from particle instability and aggregate formation. Therefore, the efficacy and safety of these therapeutics is dependent on the particle composition, quantity and size distribution.
Consequently, well-established methods are required to quantify and characterize particles in the submicron- and micron-size ranges. In this thesis, we developed new approaches which allow for comprehensive characterization of the particle populations present in biopharmaceutical products, both as impurities or as API. Furthermore, the performed work focused on comparing different particle characterization techniques to allow a better understanding of the limitations and strengths of each method applied.
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Particle characterization

Particle impurities

Protein stability

Formulation

Cell therapy

Analytical characterization

Nanoparticles

Microparticles

Machine learning

All authors

Grabarek, A.D.

Supervisor

Jiskoot, W.

Co-supervisor

Hawe, A.

Committee

Irth, H.; Bouwstra, J.A.; Frijlink, H.; Juppo, A.; Merkel, O.; Westen, G. van; Volkin, D.

Qualification

Doctor (dr.)

Awarding Institution

Leiden Academic Centre for Drug Research (LACDR), Faculty of Science, Leiden University

Date

2021-10-21

ISBN (print)

9788396247605