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KMID : 0387720070180030129
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Korean Journal of Blood Transfusion
2007 Volume.18 No. 3 p.129 ~ p.137
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Changes in the Physical Properties of Irradiated Red Blood Cells.
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Kim Yu-Kyung
Suh Jang-Soo
Won Dong-Il
Park Jung-Ran
Kim Dong-Hyun
Kwon Eun-Hee
Kim Eun-Jin
Shin Se-Hyun
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Abstract
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Background: Irradiation of cellular blood products is the current method used for the prevention of transfusion-associated graft-versus-host disease. However, irradiation has been shown to cause biochemical changes in stored red blood cells (RBCs) and to generate reactive oxygen species (ROS). Irradiation-induced biochemical changes and oxidation damage of the RBCs is closely related to the deformability of these cells. Furthermore, deformation of the RBCs may lead to alterations in the post-transfusion viability of stored RBCs. In this study, we evaluated the physical properties of irradiated RBCs.
Methods: Citrate phosphate dextrose adenine-1 preserved RBC concentrates were irradiated with a minimum dose of 25 Gy and stored at 4oC for 28 days. The deformation of the RBCs was measured by a microfluidic ektacytometer (RheoScan-D). To examine the effect of oxidative stress, the RBC concentrates were exposed to oxidative stress using FeSO4 and ascorbic acid.
Results: The deformability threshold of the irradiated RBCs was significantly lower than that of the control RBCs on day 21 of storage and later (P<0.05). The deformability threshold of the RBCs exposed to oxidative stress was lower than that of control RBCs, and the difference was significant on day 21 of storage and later (P<0.05). For up to 21 days of storage, the deformability of control and irradiated RBCs were maintained; however, they were significantly decreased at 28 days of storage compared with 1 day of storage (P<0.05).
Conclusion: Irradiation reduced the threshold of RBC deformability during storage. In accordance with the effect of irradiation, oxidative stress affected the RBC deformability. Therefore, a ROS scavenger may play a protective role against deformation of irradiated RBC concentrates. Further evaluation will be required for confirmation and clarification of these findings.
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KEYWORD
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RBC deformability, Irradiation, Oxidative stress
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