Becerra Sandra C, Darlington Daniel N, Abaasah Isaac E, Herzig Maryanne C, Bynum James A, Christy Barbara A
From the Pathology, Epidemiology, and Biostatistics (S.C.B.), US Army Institute of Surgical Research, Fort Sam Houston; Translational Science PhD Program (S.C.B., B.A.C.), UT Health San Antonio, San Antonio; Blood and Shock Research (D.N.D., I.E.A., M.C.H., J.A.B., B.A.C.), US Army Institute of Surgical Research, Fort Sam Houston; and Department of Surgery (D.N.D., J.A.B.) and Department of Molecular Medicine (B.A.C.), UT Health San Antonio, San Antonio, Texas.
J Trauma Acute Care Surg. 2023 Jan 1;94(1):162-168. doi: 10.1097/TA.0000000000003750. Epub 2022 Jul 19.
Whole blood (WB) transfusion is routinely used to resuscitate severely injured military trauma patients. Blood can be stored refrigerated while still maintaining reasonable function but is susceptible to environmental influences, including radiation exposure. Immune-compromised patients are transfused with irradiated blood to inactivate donor lymphocyte function (25 Gy per Association for the Advancement of Blood and Biotherapies [AARB] standard 5.7.3.2). However, there is limited information on function of WB exposed to high radiation doses.
This study aimed to determine if stored irradiated WB still retains function. This will be important if the stored blood supply is exposed to radiation in a combat situation or mass casualty incident when the need for blood will be high.
Whole blood collected from healthy donors was irradiated at 0, 25, or 75 Gy and stored at 4°C. Blood cell count, blood gas chemistry, thromboelastometry, platelet aggregation, and reactive oxygen species were measured before irradiation and at 1, 7, and 14 days of storage. Irradiated WB was compared with nonirradiated WB controls.
Irradiated WB stored for up to 14 days was not significantly different than nonirradiated WB in most of the parameters measured. Stored blood showed expected changes associated with functional decline at longer storage times, but irradiation did not hasten the decline. There was a significant change in potassium and sodium ion concentrations after irradiation, but the functional relevance is not clear.
High-dose irradiation had little effect on stored WB. Although there were changes in plasma sodium and potassium levels, there was little to no effect on hemostasis and blood cell viability. This suggests that stored blood subjected to a radiation event generating at least a dose of 75 Gy is still suitable for transfusion, which could be particularly important in the event of a mass casualty event where a large amount of blood is needed.
