A comparison between leukocyte reduced low titer whole blood vs non-leukocyte reduced low titer whole blood for massive transfusion activation.

BACKGROUND: Hemorrhagic shock is the leading cause of survivable death in trauma patients and recent literature has focused on resuscitation strategies including transfusing low-titer group O whole blood (LTOWB). Debate remains regarding whether leukocyte reduced (LR) whole blood is of clinical benefit or detriment to patients requiring massive transfusion. This study compares survival outcomes between LR-LTOWB and non-LR LTOWB. STUDY DESIGN AND METHODS: The objective of this prospective, observational study was to detect any difference in 24-hour survival between patients receiving LR-LTOWB and non-LR LTOWB during their massive transfusion activation. Secondary objectives were to report any difference in ICU LOS, ventilation days, in-hospital survival, and hospital LOS. Data collected included patient sex, age, mechanism of injury, Injury Severity Score (ISS), Trauma Injury Severity Score (TRISS), cause of death, and number of LTOWB transfused. RESULTS: A total of 167 patients received 271 LTOWB transfusions. There were 97 patients that received 168 units of LR-LTOWB while 70 patients received 103 units of non-LR LTOWB. The two study groups were comparable in terms of age, sex, ISS, TRISS, and the number of LTOWB transfused. The use of LR LTOWB during the initial massive transfusion activation in traumatically injured patients was not associated with increased 24-hour survival compared to when using non-LR LTOWB. No transfusion associated adverse events were reported. CONCLUSIONS: The administration of either LR or non-LR LTOWB was not associated with >24 hours survival in patients presenting with massive hemorrhage. The high cost and the rapid decline in platelet count of LR whole blood may be a consideration.

Anti-M-Induced Delayed Hemolytic Transfusion Reaction.

BACKGROUND: Anti-M is most often assumed to be naturally occurring and can be comprised of a mixture of predominantly immunoglobulin(Ig)M with a lesser IgG component. Anti-M-antibodies usually do not react at 37°C and therefore are considered to be of little clinical significance. METHODS: A 28-year-old man presented with hemorrhagic shock from numerous injuries sustained in a motor vehicle collision. The patient received several units of red blood cells (RBCs). The antibody screen, the direct antiglobulin test (DAT), and the RBC genotype were sent for laboratory evaluation. RESULTS: A total of 12 days after the first antibody screening result was negative (7 days after transfusion), the lowest hemoglobin value was 5.5 g per dL, and we observed a positive antibody screening result and DAT with immunoglobulin (Ig)G anti-M identified. After transfusion of 4 units of M antigen-negative RBC, the post-transfusion hemoglobin level increased to 8.9 g per dL. CONCLUSION: Obtaining M antigen-negative compatible RBCs is necessary in patients demonstrating IgG anti-M in plasma.

Implementation of a new blood cooler insert and tracking technology with educational initiatives and its effect on reducing red blood cell wastage.

BACKGROUND: The objective was to report a successful implementation of a blood cooler insert and tracking technology with educational initiatives and its effect on reducing red blood cell (RBC) wastage. STUDY DESIGN AND METHODS: The blood bank database was used to quantify and categorize total RBC units issued in blood coolers from January 2010 to December 2015 with and without the new inserts throughout the hospital. Radiofrequency identification tags were used with special software to monitor blood cooler tracking. An educational policy on how to handle the coolers was initiated. Data were gathered from the software that provided a real-time location monitoring of the blood coolers with inserts throughout the institution. RESULTS: The implementation of the blood cooler with inserts and tracking device reduced mean yearly RBC wastage by fourfold from 0.64% to 0.17% between 2010 and 2015. The conserved RBCs corresponded to a total cost savings of $167,844 during the 3-year postimplementation period. CONCLUSIONS: The implementation of new blood cooler inserts, tracking system, and educational initiatives substantially reduced the mean annual total RBC wastage. The cost to implement this initiative may be small if there is an existing institutional infrastructure to monitor and track hospital equipment into which the blood bank intervention can be adapted when compared to the cost of blood wastage.

Fatal autoimmune hemolytic anemia due to immunoglobulin g autoantibody exacerbated by epstein-barr virus.

Most cases of autoimmune hemolytic anemia (AIHA) are caused by the production of an autoantibody that targets determinants on red blood cells (RBCs). This autoantibody can be immunoglobulin (Ig) G, IgM, or IgA. Some autoantibodies react optimally at 0° to 4°C (ie, cold agglutinin) and usually are clinically insignificant. High-titer cold agglutinins are associated with IgM autoantibody and complement fixation induced by infectious agents, including the Epstein-Barr virus (EBV). This case report describes a 31-year-old man who had jaundice, a hemoglobin of 6.0 gdL, and was diagnosed with a hemolytic crisis of AIHA. He received a total of 11 RBC transfusions during a 15-hour period without sustained response and later died. The direct antiglobulin test results for this patient were positive, whereas the cold-agglutinin-testing results were negative. We detected EBV DNA in blood via polymerase chain reaction (PCR). We report a rare case of AIHA associated with an IgG autoantibody and exacerbated by EBV infection, causing a fatal hemolytic anemia.