Evaluation and Validation of Virus Removal by Ultrafiltration During the Production of Diaspirin Crosslinked Haemoglobin (DCLHb)

doi:10.1006/biol.2000.0246

Biologicals

Volume 28, Issue 2, June 2000, Pages 81-94

https://doi.org/10.1006/biol.2000.0246 Get rights and content

Abstract

Virus retention during ultrafiltration through A/G Technology filter cartridges was investigated to characterize the removal process and validate the degree of virus titre reduction during the filtration of red blood cell haemolysates performed as part of the production of diaspirin crosslinked haemoglobin (DCLHb). When viruses were suspended in phosphate buffered saline solution, retention was greater with larger sized viruses and smaller filter pore size. Virus titre was maintained at starting levels in the filter retentate circuit during the course of filtration, suggesting that the virus removal mechanism is predominantly size exclusion. Evaluation of specific processing variables indicated that the retention of phi X174 virus was increased in the presence of red blood cell haemolysate or at high membrane crossflow rates and transmembrane pressures, while the retention of EMC virus was less sensitive to variations in these parameters. Using these results to design a validation protocol, log reduction values of >7·9 were demonstrated for the retention of human immunodeficiency virus, pseudorabies virus and bovine viral diarrhoea viruses, 7·6 for hepatitis A virus, and 4·2 for porcine parvovirus. It was also shown that the retention of viruses was maintained during repetitive use of the same filter cartridge.

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Citation Excerpt :
They attributed this decrease to elevated concentration polarization at higher pressures and consequently higher particle concentrations in the permeate. Azari et al. [15] observed increased retention of φX174 by a 500 kDa UF membrane when the TMP was increased from 52 to 103 kPa. The authors explained this phenomenon by the presence of red blood cell haemolysate in the feed stream, which altered the accessibility of the membrane pores at higher pressure.
This experimental study elucidates the impact of transmembrane pressure and particle deformability on the retention of biological and non-biological particles by porous microfiltration polymer membranes in dead-end filtration processes. Bacteriophages, mycoplasma, common bacteria and polystyrene model particles, ranging from 0.02 µm to 1.5 µm in particle diameter, were chosen due to their industrial relevance as well as due to their expected differences in deformability. For each particle type, precipitation cast polyethersulfone membranes with a sponge-like structure were tailor-made in order to achieve two levels of retention for the respective particle type. The transmembrane pressure was varied from 10 to 950 kPa and the stiffness of the particles was measured with atomic force microscopy. A good correlation between particle stiffness on the one hand and the impact of transmembrane pressure on particle retention on the other hand was observed. The present study suggests that mycoplasma and Gram-negative bacteria are easily deformable at low forces, which explains that they are thus able to squeeze through membrane pores when transmembrane pressure is increased. In contrast, for the relatively stiff Gram-positive bacteria, much higher transmembrane pressures were needed to show a retention decrease. Bacteriophages and polystyrene beads did not show higher passage at the exerted transmembrane pressures.
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^f1: To whom correspondence should be addressed. Dr. Timothy N. Estep, Baxter Healthcare Corporation, 2545 Central Avenue, Suite FD-1, Boulder, CO 80301–2857, U.S.A.

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Regular ArticleEvaluation and Validation of Virus Removal by Ultrafiltration During the Production of Diaspirin Crosslinked Haemoglobin (DCLHb)

Abstract

Biologicals

J Mem Sci

Isolation and characterization of a new hemoglobin derivative cross-linked between the α-chains (Lysine 99α1–99α2)

J Biol Chem

A hemoglobin derivative that is cross-linked between the α subunits is useful as a blood substitute

Proc Natl Acad Sci USA

Preparation and characterization of diaspirin cross-linked hemoglobin solutions for preclinical studies

Biomat Artif Cells Immobil Biotech.

Regular Article
Evaluation and Validation of Virus Removal by Ultrafiltration During the Production of Diaspirin Crosslinked Haemoglobin (DCLHb)

Isolation and characterization of a new hemoglobin derivative cross-linked between the α-chains (Lysine 99α₁–99α₂)