Impact of solvent/detergent treatment of plasma on transfusion‐relevant bacteria
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T. Burnouf | Ming-Li Chou | C. Su | Y. Wu | Lin-Wen Lee | M. Chou
[1] J. Korsak. Transfusion-Associated Bacterial Sepsis , 2012 .
[2] D. Devine,et al. Establishment of the first International Repository for Transfusion‐Relevant Bacteria Reference Strains: ISBT Working Party Transfusion‐Transmitted Infectious Diseases (WP‐TTID), Subgroup on Bacteria , 2012, Vox sanguinis.
[3] M. Goldman,et al. Bacterial contamination in platelets: incremental improvements drive down but do not eliminate risk , 2011, Transfusion.
[4] J. Goudemand,et al. Solvent‐detergent filtered (S/D‐F) fresh frozen plasma and cryoprecipitate minipools prepared in a newly designed integral disposable processing bag system , 2010, Transfusion medicine.
[5] K. Burns,et al. Bacterial contamination of platelet units: a case report and literature survey with review of upcoming american association of blood banks requirements. , 2009, Archives of pathology & laboratory medicine.
[6] W. Osheroff,et al. Robustness of solvent/detergent treatment of plasma derivatives: a data collection from Plasma Protein Therapeutics Association member companies , 2009, Transfusion.
[7] C. Prowse. Properties of pathogen-inactivated plasma components. , 2009, Transfusion medicine reviews.
[8] K. Kleesiek,et al. Spore‐forming organisms in platelet concentrates: a challenge in transfusion bacterial safety , 2008, Transfusion medicine.
[9] E. Wood,et al. Detection of bacterial contamination of platelet concentrates , 2007, Vox sanguinis.
[10] R. Benjamin,et al. The residual risk of sepsis: modeling the effect of concentration on bacterial detection in two‐bottle culture systems and an estimation of false‐negative culture rates , 2007, Transfusion.
[11] T. Holland-Letz,et al. Bacterial contamination of platelet concentrates: results of a prospective multicenter study comparing pooled whole blood–derived platelets and apheresis platelets , 2007, Transfusion.
[12] T. Müller,et al. Elimination and multiplication of bacteria during preparation and storage of buffy coat–derived platelet concentrates , 2006, Transfusion.
[13] E. Beckers,et al. Bacterial detection of platelets: current problems and possible resolutions. , 2005, Transfusion medicine reviews.
[14] C. Buchta,et al. Impact of manufacturing, irradiation and filtration steps to bacterial contamination of autologous fibrin sealant. , 2004, Biologicals : journal of the International Association of Biological Standardization.
[15] M. Blajchman,et al. ES08.02 Bacterial contamination of cellular blood components: risks, sources and control , 2004, Vox Sanguinis.
[16] D. De Korte,et al. Determination of the degree of bacterialcontamination of whole‐blood collections using anautomated microbe‐detection system , 2001, Transfusion.
[17] T Burnouf,et al. Reducing the risk of infection from plasma products: specific preventative strategies. , 2000, Blood reviews.
[18] A. Prince,et al. Solvent/detergent-treated plasma: a virus-inactivated substitute for fresh frozen plasma. , 1992, Blood.
[19] C. Hogman,et al. White cells protect donor blood against bacterial contamination , 1991, Transfusion.
[20] M. Wiebe,et al. Inactivation of viruses in labile blood derivatives. I. Disruption of lipid‐enveloped viruses by tri(n‐butyl)phosphate detergent combinations , 1985, Transfusion.
[21] Z. Ježková. Frozen human plasma and bacterial contamination , 1972, Casopis lekaru ceskych.
[22] E. Seifried,et al. Screening of platelet concentrates for bacterial contamination: spectrum of bacteria detected, proportionof transfused units, and clinical follow-up , 2009, Annals of Hematology.
[23] T. Montag. Strategies of bacteria screening in cellular blood components , 2008, Clinical chemistry and laboratory medicine.
[24] H. Kessler,et al. Experience with low temperature storage of bacteria and fungi , 2005, Infection.
[25] Z. Ježková. Frozen human plasma and bacterial contamination. , 1972, Blut.