S Reichenberg1, U Gravemann2, C Sumian3, A Seltsam2. 1. Maco Pharma International GmbH, Langen, Germany. 2. Red Cross Blood Service NSTOB, Institute Springe, Springe, Germany. 3. Macopharma S.A., Tourcoing, France.
Abstract
BACKGROUND AND OBJECTIVES: Although most pathogen reduction systems for plasma primarily target viruses, bacterial contamination may also occur. This study aimed to investigate the bacterial reduction capacity of a methylene blue (MB) treatment process and its virus inactivation capacity in lipaemic plasma. MATERIALS AND METHODS: Bacterial concentrations in plasma units spiked with different bacterial strains were measured before and after the following steps of the THERAFLEX MB-Plasma procedure: leucocyte filtration, MB/light treatment and MB filtration. Virus inactivation was investigated for three virus types in non-lipaemic, borderline lipaemic and highly lipaemic plasma. RESULTS: Leucocyte filtration alone efficiently eliminated most of the tested bacteria by more than 4 logs (Staphylococcus epidermidis and Staphylococcus aureus) or to the limit of detection (LOD) (≥ 4.8 logs; Escherichia coli, Bacillus cereus and Klebsiella pneumoniae). MB/light and MB filtration further reduced Staphylococcus epidermidis and Staphylococcus aureus to below the LOD. The small bacterium Brevundimonas diminuta was reduced by 1.7 logs by leucocyte filtration alone, and to below the LOD by additional MB/light treatment and MB filtration (≥ 3.7 logs). Suid herpesvirus 1, bovine viral diarrhoea virus and human immunodeficiency virus 1 were efficiently inactivated by THERAFLEX MB-Plasma, independent of the degree of lipaemia. CONCLUSION: THERAFLEX MB-Plasma efficiently reduces bacteria, mainly via the integrated filtration system. Its virus inactivation capacity is sufficient to compensate for reduced light transparency due to lipaemia.
BACKGROUND AND OBJECTIVES: Although most pathogen reduction systems for plasma primarily target viruses, bacterial contamination may also occur. This study aimed to investigate the bacterial reduction capacity of a methylene blue (MB) treatment process and its virus inactivation capacity in lipaemic plasma. MATERIALS AND METHODS: Bacterial concentrations in plasma units spiked with different bacterial strains were measured before and after the following steps of the THERAFLEX MB-Plasma procedure: leucocyte filtration, MB/light treatment and MB filtration. Virus inactivation was investigated for three virus types in non-lipaemic, borderline lipaemic and highly lipaemic plasma. RESULTS: Leucocyte filtration alone efficiently eliminated most of the tested bacteria by more than 4 logs (Staphylococcus epidermidis and Staphylococcus aureus) or to the limit of detection (LOD) (≥ 4.8 logs; Escherichia coli, Bacillus cereus and Klebsiella pneumoniae). MB/light and MB filtration further reduced Staphylococcus epidermidis and Staphylococcus aureus to below the LOD. The small bacterium Brevundimonas diminuta was reduced by 1.7 logs by leucocyte filtration alone, and to below the LOD by additional MB/light treatment and MB filtration (≥ 3.7 logs). Suid herpesvirus 1, bovineviral diarrhoea virus and human immunodeficiency virus 1 were efficiently inactivated by THERAFLEX MB-Plasma, independent of the degree of lipaemia. CONCLUSION: THERAFLEX MB-Plasma efficiently reduces bacteria, mainly via the integrated filtration system. Its virus inactivation capacity is sufficient to compensate for reduced light transparency due to lipaemia.
Authors: Alfred Gugerell; Dirk Sorgenfrey; Maria Laggner; Jürgen Raimann; Anja Peterbauer; Daniel Bormann; Susanne Suessner; Christian Gabriel; Bernhard Moser; Tobias Ostler; Michael Mildner; Hendrik J Ankersmit Journal: Blood Transfus Date: 2019-02-21 Impact factor: 3.443
Authors: Markus Eickmann; Ute Gravemann; Wiebke Handke; Frank Tolksdorf; Stefan Reichenberg; Thomas H Müller; Axel Seltsam Journal: Transfusion Date: 2018-05-06 Impact factor: 3.157
Authors: José Luis Arroyo; Eva Martínez; Cristina Amunárriz; Carmen Muñoz; Iñigo Romón; Ignacio Álvarez; José María García Journal: Transfus Apher Sci Date: 2020-04-12 Impact factor: 1.764