Transfusion
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Multicenter Study
Variability and predictability of large-volume red blood cell transfusion in cardiac surgery: a multicenter study.
In cardiac surgery, excessive blood loss requiring large-volume red blood cell (RBC) transfusion is a common occurrence that is associated with significant morbidity and mortality. The objectives of this study were to measure the interinstitution variation and predictability of large-volume RBC transfusion. ⋯ There is marked interinstitution variation in large-volume RBC transfusion in cardiac surgery that is not explained by patient- or surgery-related factors. Despite this variation, patients at high or low risk for large-volume RBC transfusion can be accurately identified by a prediction rule composed of readily available clinical variables.
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The hemoglobin-based oxygen carrier (HBOC-201) resuscitation fluid improves outcome in hemorrhagic shock swine models with minimal coagulopathy. Herein, coagulation parameters were evaluated after resuscitation with HBOC-201 after severe bleeding and prolonged delay to definitive care. ⋯ In this severe model, survival was equivalent with HBOC-201 and HEX resuscitation. HBOC-201 or HEX allowed delayed hospital arrival to 24 hours without worsening coagulation parameters, but dilutional mild coagulopathy in the hospital phase persisted with HBOC-201 due to blood transfusion avoidance. Low hematocrit suggests that blood administration after HBOC-201 resuscitation could be beneficial to replete blood cellular mass.
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ABO genotyping is complicated by the remarkable diversity at the ABO locus. Recombination or gene conversion between common alleles may lead to hybrids resulting in unexpected ABO phenotypes. Furthermore, numerous mutations associated with weak subgroups and nondeletional null alleles should be considered. All known ABO genotyping methods, however, risk incorrect phenotype predictions if any such alleles are present. ⋯ A new genotyping approach has been developed and evaluated that can correctly identify ABO alleles including nondeletional null alleles, subgroups, and hybrids resulting from recombinational crossing-over events between exons 6 and 7. This approach is clinically applicable and decreases the risk for erroneous ABO phenotype prediction compared to previously published methods.