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Prolonged Blood Storage and Risk of Posttransfusion Acute Kidney Injury
Adegboye J, Sapatnekar S, Mascha EJ, Shah K, Lioudis M, Essber H, Cohen B, Rivas E, Heddle NM, Eikelboom JW, et al
Anesthesiology. 2021
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Abstract
BACKGROUND Erythrocyte transfusions are independently associated with acute kidney injury. Kidney injury may be consequent to the progressive hematologic changes that develop during storage. This study therefore tested the hypothesis that prolonged erythrocyte storage increases posttransfusion acute kidney injury. METHODS The Informing Fresh versus Old Red Cell Management (INFORM) trial randomized 31,497 patients to receive either the freshest or oldest available matching erythrocyte units and showed comparable mortality with both. This a priori substudy compared the incidence of posttransfusion acute kidney injury in the randomized groups. Acute kidney injury was defined by the creatinine component of the Kidney Disease: Improving Global Outcomes criteria. RESULTS The 14,461 patients included in this substudy received 40,077 erythrocyte units. For patients who received more than one unit, the mean age of the blood units was used as the exposure. The median of the mean age of blood units transfused per patient was 11 days [interquartile range, 8, 15] in the freshest available blood group and 23 days [interquartile range, 17, 30] in the oldest available blood group. In the primary analysis, posttransfusion acute kidney injury was observed in 688 of 4,777 (14.4%) patients given the freshest available blood and 1,487 of 9,684 (15.4%) patients given the oldest available blood, with an estimated relative risk (95% CI) of 0.94 (0.86 to 1.02; P = 0.132). The secondary analysis treated blood age as a continuous variable (defined as duration of storage in days), with an estimated relative risk (95% CI) of 1.00 (0.96 to 1.04; P = 0.978) for a 10-day increase in the mean age of erythrocyte units. CONCLUSIONS In a population of patients without severely impaired baseline renal function receiving fewer than 10 erythrocyte units, duration of blood storage had no effect on the incidence of posttransfusion acute kidney injury.
PICO Summary
Population
Hospitalized patients enrolled across four countries in the Informing Fresh versus Old Red Cell Management (INFORM) trial (n= 14,461).
Intervention
Transfusion with freshest available erythrocyte units (n= 4,777).
Comparison
Transfusion with oldest available erythrocyte units (n= 9,684).
Outcome
The median of the mean age of blood units transfused per patient was 11 days in the freshest available blood group and 23 days in the oldest available blood group. In the primary analysis, post-transfusion acute kidney injury was observed in 688 of 4,777 (14.4%) patients given the freshest available blood and 1,487 of 9,684 (15.4%) patients given the oldest available blood, with an estimated relative risk of 0.94.
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Analysis of Red Blood Cell Storage Duration and in-Hospital Mortality Using Time Dependent Exposure: Is the Oldest Blood Bad?
Heddle NM, Cook RJ, Lee K-A, Arnold DM, Crowther M, Devereaux P, Ellis M, Figueroa PI, Kurz A, Roxby D, et al
Transfusion. 2017;57((53)):33A.. c26-a02c
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The effect of blood storage duration on in-hospital mortality: a randomized controlled pilot feasibility trial
Heddle NM, Cook RJ, Arnold DM, Crowther MA, Warkentin TE, Webert KE, Hirsh J, Barty RL, Liu Y, Lester C, et al
Transfusion. 2012;52((6):):1203-12.
Abstract
BACKGROUND Whether the duration of storage of blood has an impact on patient outcomes remains controversial. The objective was to determine feasibility of a comparative effectiveness trial to evaluate duration of storage of blood before transfusion on in-hospital mortality. STUDY DESIGN AND METHODS A single-center randomized controlled trial was performed at an acute care hospital in Canada between June and December 2010, involving consecutive hospitalized patients needing blood transfusion. Patients (n=910) were randomly assigned in a 1:2 ratio to receive freshest available versus standard-issue (oldest available) blood. Four feasibility criteria were measured: proportion of eligible patients randomized, contrast in age of blood between treatment groups, real-time data acquisition, and trial impact on blood outdating. In-hospital mortality was also reported. RESULTS A total of 1075 of 1129 patients (95.2%) were eligible and 910 of 1075 (84.7%) were randomized: 309 received freshest available blood (1157 units), and 601 received standard-age blood (2369 units). Contrast in mean age of the oldest blood transfused between groups was 14.6 days: 12.0 (standard deviation [SD], 6.8) days in the fresh arm and 26.6 (SD, 7.8) days in the standard arm. Weekly recruitment and event reporting were achieved for all patients. The blood outdate rate was 0.10%. In-hospital mortality was 10.5%: 35 deaths (11.3%) in the fresh arm and 61 deaths (10.1%) in the standard arm (odds ratio, 1.13; 95% confidence interval [CI], 0.73, 1.76). CONCLUSION It is feasible to conduct a large comparative effectiveness trial comparing the effect of freshest available versus standard-issue blood on in-hospital mortality. The wide CI around the estimate for in-hospital mortality supports the need for a large trial. 2012 American Association of Blood Banks.