Abstract

OBJECTIVE Anemia is very common in critical care patients, on admission (affecting about two-thirds of patients), but also during and after their stay, due to repeated blood loss, the effects of inflammation on erythropoiesis, a decreased red blood cell life span, and haemodilution. Anemia is associated with severity of illness and length of stay. METHODS A committee composed of 16 experts from four scientific societies, SFAR, SRLF, SFTS and SFVTT, evaluated three fields: (1) anemia prevention, (2) transfusion strategies and (3) non-transfusion treatment of anemia. Population, Intervention, Comparison, and Outcome (PICO) questions were reviewed and updated as needed, and evidence profiles were generated. Analysis of the literature and formulation of recommendations were then conducted according to the GRADE(®) methodology. RESULTS The SFAR-SRLF guideline panel provided ten statements concerning the management of anemia in adult critical care patients. Acute haemorrhage and chronic anemia were excluded from the scope of these recommendations. After two rounds of discussion and various amendments, a strong consensus was reached for ten recommendations. Three of these recommendations had a high level of evidence (GRADE 1±) and four had a low level of evidence (GRADE 2±). No GRADE recommendation could be provided for two questions in the absence of strong consensus. CONCLUSIONS The experts reached a substantial consensus for several strong recommendations for optimal patient management. The experts recommended phlebotomy reduction strategies, restrictive red blood cell transfusion and a single-unit transfusion policy, the use of red blood cells regardless of storage time, treatment of anaemic patients with erythropoietin, especially after trauma, in the absence of contraindications and avoidance of iron therapy (except in the context of erythropoietin therapy).

Abstract

Importance: Blood transfusion is one of the most frequently used therapies worldwide and is associated with benefits, risks, and costs. Objective: To develop a set of evidence-based recommendations for patient blood management (PBM) and for research. Evidence Review: The scientific committee developed 17 Population/Intervention/Comparison/Outcome (PICO) questions for red blood cell (RBC) transfusion in adult patients in 3 areas: preoperative anemia (3 questions), RBC transfusion thresholds (11 questions), and implementation of PBM programs (3 questions). These questions guided the literature search in 4 biomedical databases (MEDLINE, EMBASE, Cochrane Library, Transfusion Evidence Library), searched from inception to January 2018. Meta-analyses were conducted with the GRADE (Grading of Recommendations, Assessment, Development, and Evaluation) methodology and the Evidence-to-Decision framework by 3 panels including clinical and scientific experts, nurses, patient representatives, and methodologists, to develop clinical recommendations during a consensus conference in Frankfurt/Main, Germany, in April 2018. Findings: From 17607 literature citations associated with the 17 PICO questions, 145 studies, including 63 randomized clinical trials with 23143 patients and 82 observational studies with more than 4 million patients, were analyzed. For preoperative anemia, 4 clinical and 3 research recommendations were developed, including the strong recommendation to detect and manage anemia sufficiently early before major elective surgery. For RBC transfusion thresholds, 4 clinical and 6 research recommendations were developed, including 2 strong clinical recommendations for critically ill but clinically stable intensive care patients with or without septic shock (recommended threshold for RBC transfusion, hemoglobin concentration <7 g/dL) as well as for patients undergoing cardiac surgery (recommended threshold for RBC transfusion, hemoglobin concentration <7.5 g/dL). For implementation of PBM programs, 2 clinical and 3 research recommendations were developed, including recommendations to implement comprehensive PBM programs and to use electronic decision support systems (both conditional recommendations) to improve appropriate RBC utilization. Conclusions and Relevance: The 2018 PBM International Consensus Conference defined the current status of the PBM evidence base for practice and research purposes and established 10 clinical recommendations and 12 research recommendations for preoperative anemia, RBC transfusion thresholds for adults, and implementation of PBM programs. The relative paucity of strong evidence to answer many of the PICO questions supports the need for additional research and an international consensus for accepted definitions and hemoglobin thresholds, as well as clinically meaningful end points for multicenter trials.

Abstract

BACKGROUND Platelets (PLTs) are usually stored for up to 5 days prior to transfusion, although in some blood services the storage period is extended to 7 days. During storage, changes occur in both PLT and storage medium, which may lead to PLT activation and dysfunction. The clinical significance of these changes remains uncertain. METHODS We performed a systematic review to assess the association between PLT storage time and clinical or transfusion outcomes in patients receiving allogeneic PLT transfusion. We searched studies published in English between January 2000 and July 2017 identified from MEDLINE, Embase, PubMed and the Cochrane Libraries. RESULTS Of the 18 studies identified, five included 4719 critically ill patients (trauma, post-cardiac surgery and a heterogeneous population of critically ill patients) and 13 included 8569 haematology patients. The five studies in critically ill patients were retrospective and did not find any association between PLT storage time when PLTs were stored for up to 5 days and mortality. There was also no association between older PLTs and sepsis in the two largest studies (n = 4008 patients). Of the 13 studies in haematology patients, seven analysed prolonged storage time up to 6.5 or 7 days. Administration of fresh PLTs (less than 2 or 3 days) was associated with a significant increase in corrected count increment (CCI) compared to older PLTs in seven of the eight studies analysing this outcome. One single centre retrospective study found an increase in bleeding events in patients receiving older PLTs. CONCLUSIONS PLT storage time does not appear to be associated with clinical outcomes, including bleeding, sepsis or mortality, in critically ill patients or haematology patients. The freshest PLTs (less than 3 days) were associated with a better CCI, although there was no impact on bleeding events, questioning the clinical significance of this association. However, there is an absence of evidence to draw definitive conclusions, especially in critically ill patients.

Abstract

Background It is uncertain whether the duration of red-cell storage affects mortality after transfusion among critically ill adults. Methods In an international, multicenter, randomized, double-blind trial, we assigned critically ill adults to receive either the freshest available, compatible, allogeneic red cells (short-term storage group) or standard-issue (oldest available), compatible, allogeneic red cells (long-term storage group). The primary outcome was 90-day mortality. Results From November 2012 through December 2016, at 59 centers in five countries, 4994 patients underwent randomization and 4919 (98.5%) were included in the primary analysis. Among the 2457 patients in the short-term storage group, the mean storage duration was 11.8 days. Among the 2462 patients in the long-term storage group, the mean storage duration was 22.4 days. At 90 days, there were 610 deaths (24.8%) in the short-term storage group and 594 (24.1%) in the long-term storage group (absolute risk difference, 0.7 percentage points; 95% confidence interval [CI], -1.7 to 3.1; P=0.57). At 180 days, the absolute risk difference was 0.4 percentage points (95% CI, -2.1 to 3.0; P=0.75). Most of the prespecified secondary measures showed no significant between-group differences in outcome. Conclusions The age of transfused red cells did not affect 90-day mortality among critically ill adults. (Funded by the Australian National Health and Medical Research Council and others; TRANSFUSE Australian and New Zealand Clinical Trials Registry number, ACTRN12612000453886 ; ClinicalTrials.gov number, NCT01638416 .).

Abstract

OBJECTIVE To determine if using freshest available rather than standard-issue red blood cells (RBCs) can reduce mortality in critically ill intensive care unit patients. Our study is the largest ongoing randomised controlled trial (RCT) of RBC age in critically ill patients and will help determine if the use of the freshest available RBCs should become standard policy for the critically ill. DESIGN, SETTING AND PARTICIPANTS A double-blind, multicentre, Phase III RCT of 5000 adult ICU patients in Australia, New Zealand, Europe and the Middle East. INTERVENTIONS Transfusion of the freshest available RBCs in place of standard-care RBCs until hospital discharge. MAIN OUTCOME MEASURES The primary outcome measure is 90-day all-cause mortality. Secondary outcome measures are time to death, 28-day and 180-day mortality, persistent organ dysfunction combined with death, days alive and free of mechanical ventilation and renal replacement therapy, bloodstream infection in the ICU, length of stay in the ICU and in hospital, proportion of patients with febrile non-haemolytic transfusion reactions, and quality of life at Day 180. RESULTS A detailed statistical analysis plan with predefined subgroups and secondary analyses has been finalised before results being available, to ensure an unbiased final analysis. CONCLUSIONS The pragmatic protocol design has been chosen to facilitate translation of the trial results into practice. The TRANSFUSE trial will have important clinical and policy implications, regardless of the outcome. IS 1441-2772

Abstract

PURPOSE Uncontrolled bleeding is the main preventable cause of death in severe trauma patients. Fibrinogen is the first coagulation factor to decrease during trauma-induced coagulopathy, suggesting that pharmacological replacement might assist early hemorrhage control. Several sources of fibrinogen are available; however, fibrinogen concentrate (FC) is not routinely used in trauma settings in most countries. The aim of this review is to summarize the available literature evaluating the use of FC in the management of severe trauma. METHODS Studies reporting the administration of FC in trauma patients published between January 2000 and April 2013 were identified from MEDLINE and from the Cochrane Library. RESULTS The systematic review identified 12 articles reporting FC usage in trauma patients: 4 case reports, 7 retrospective studies, and 1 prospective observational study. Three of these were not restricted to trauma patients. CONCLUSIONS Despite methodological flaws, some of the available studies suggested that FC administration may be associated with a reduced blood product requirement. Randomized trials are warranted to determine whether FC improves outcomes in prehospital management of trauma patients or whether FC is superior to another source of fibrinogen in early hospital management of trauma patients. Copyright 2014 Elsevier Inc. All rights reserved.

Abstract

BACKGROUND Prolonged storage of red blood cells (RBCs) may increase posttransfusion adverse events in critically ill patients. We aimed to evaluate in intensive care unit (ICU) patients 1) the feasibility of allocating freshest available compatible RBCs versus standard care and 2) the suitability of this approach in the design of a large randomized controlled trial (RCT). STUDY DESIGN AND METHODS Eligible patients from two adult ICUs were randomly assigned to receive either the freshest available compatible RBCs or the standard care (the oldest compatible available RBCs) for all transfusions during their ICU stay. Study group allocation was concealed from patients and bedside clinicians, but the transfusion service was unblinded. The study endpoints were the feasibility of the study procedures, including success of the ICU Web randomization, the ICU staff blinding, and the correct delivery of the RBC units by the transfusion service in accordance with the allocated study group. In addition, we measured the difference in age of RBC units between the two groups. RESULTS During a 3-month period, 177 RBC units were delivered to 51 patients. All study procedures, including randomization, blinding, and delivery of blood in accordance with the study group were successful. The mean (+/-SD) of the mean age of the RBC received by each patient was lower in the "fresher blood" group compared with the standard care group (12.1 [+/-3.8] days vs. 23 [+/-8.4] days; p<0.001). CONCLUSION Randomized delivery of the freshest available RBCs versus standard care to ICU patients who were prescribed transfusion for clinical reasons is feasible, with a clinically relevant degree of storage duration separation achievable between the two study groups. These findings support the feasibility of a future large pragmatic RCT. 2011 American Association of Blood Banks.