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Prospective quality control study of a novel gravity‐driven whole blood separation system suitable for humanitarian crises
Centrifugation‐based whole blood (WB) separation represents the worldwide standard but it depends on electricity and infrastructure. We have prospectively evaluated a novel hollow‐fibre WB separation system that does not require manual priming or blood flow regulation (n = 29). RBC units contained s...
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Published in: | Vox sanguinis 2017-11, Vol.112 (8), p.806-809 |
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container_title | Vox sanguinis |
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creator | Hackstein, H. Möller, A. Gerlach, M. Sachs, U. Bein, G. |
description | Centrifugation‐based whole blood (WB) separation represents the worldwide standard but it depends on electricity and infrastructure. We have prospectively evaluated a novel hollow‐fibre WB separation system that does not require manual priming or blood flow regulation (n = 29). RBC units contained sufficient Hb (50·4 g ± 4·3), low leucocytes (90 000 ± 0·008), exhibited low haemolysis (0·57% ± 0·49) and robust ATP content (51·47% ± 8·2) after 43 days storage. Plasma units contained low leucocytes and mean coagulation factor activities for FV, FVIII and FXI were 47%, 90% and 68%, respectively. RBC met quality specifications but plasma units exhibited reduced FV and FXI activity. |
doi_str_mv | 10.1111/vox.12595 |
format | article |
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subjects | blood component production Blood Component Transfusion - standards Blood flow Blood Preservation - methods blood processing Cell Separation - instrumentation Cell Separation - methods Centrifugation fresh frozen plasma Gravitation Hematocrit Hemolysis Humans Leukocyte Count Leukocytes Priming Prospective Studies Quality Control Relief Work Separation |
title | Prospective quality control study of a novel gravity‐driven whole blood separation system suitable for humanitarian crises |
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