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Evaluation of a sterile filtration process for viral vaccines using a model nanoparticle suspension.

Neil TaylorWanli MaAdam KristopeitSheng-Ching WangAndrew L Zydney
Published in: Biotechnology and bioengineering (2020)
There is growing interest in the development of new vaccines based on live-attenuated viruses (LAVs) and virus-like particles. The large size of these vaccines, typically 100-400 nm, significantly complicates the use of sterile filtration. The objectives of this study are to examine the performance of several commercial sterile filters for filtration of a cytomegalovirus vaccine candidate (referred to as the LAV) and to develop and evaluate the use of a model nanoparticle suspension to perform a more quantitative assessment. Data obtained with a mixture of 200- and 300-nm fluorescent particles provided yield and pressure profiles that captured the behavior of the viral vaccine. This included the excellent performance of the Sartorius Sartobran P filter, which provided greater than 80% yield of both the vaccine and model particles even though the average particle size was more than 250 nm. The particle yield for the Sartobran P was independent of filtrate flux above 200 L/m2 /h, but increased with increasing particle concentration, varying from less than 10% at concentrations around 107  particles/ml to more than 80% at concentrations above 1010  particles/ml due to saturation of particle capture/binding sites within the filter. These results provide important insights into the factors controlling transmission and fouling during sterile filtration of large vaccine products.
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