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The effect of massive transfusion protocol implementation on the survival of trauma patients: a systematic review and meta-analysis
Consunji R, Elseed A, El-Menyar A, Sathian B, Rizoli S, Al-Thani H, Peralta R
Blood transfusion = Trasfusione del sangue. 2020
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Abstract
BACKGROUND Massive transfusion protocol (MTP) has been widely adopted for the care of bleeding trauma patients but its actual effectiveness is unclear. An earlier meta-analysis on the implementation of MTP for injured patients from 1990 to 2013 reported that only 2 out of 8 studies showed statistical improvement in survival. This study aimed to conduct an updated systematic review and meta-analysis to evaluate the effect of implementing an MTP on the mortality of trauma patients. MATERIALS AND METHODS MEDLINE, PubMed, Cochrane Library and Google scholar databases were systematically searched for relevant studies published from 1(st) January 2008 to 30(th) September 2019 using a combination of keywords and additional manual searching of reference lists. Inclusion criteria were: original study in English, study population including trauma patients, and comparison of mortality outcomes before and after institutional implementation of an MTP. Primary outcomes were 24-hour, 30-day, and overall mortality. RESULTS Fourteen studies met inclusion criteria, analysing outcomes from 3,201 trauma patients. There was a wide range of outcomes, patient populations, and process indicators utilised by the different authors. MTP significantly reduced the overall mortality for trauma patients (OR 0.71 [0.56-0.90]). No significant reduction was seen in either the 24-hour mortality (OR 0.81 [0.57-1.14]) or the 30-day mortality (OR 0.73 [0.46-1.16]). However, when mortality timing was unspecified, mortality was statistically reduced (OR 0.69 [0.55-0.86]). DISCUSSION The present study found a significant reduction in mortality following MTP implementation and thus it should be recommended to all institutions managing acutely injured patients. To better identify which elements of an MTP contribute to this effect, we encourage the use of standard nomenclature, indicators, protocols and patient populations in all future MTP studies.
PICO Summary
Population
Trauma patients (14 studies, n= 3201).
Intervention
Implementation of a massive transfusion protocol (MTP) on the mortality of trauma patients.
Comparison
Outcome
There was a wide range of outcomes, patient populations, and process indicators utilised by the different authors. MTP significantly reduced the overall mortality for trauma patients. No significant reduction was seen in either the 24-hour mortality or the 30-day mortality. However, when mortality timing was unspecified, mortality was statistically reduced.
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Review of Existing Scoring Systems For Massive Blood Transfusion in Trauma Patients: Where Do We Stand?
El-Menyar A, Mekkodathil A, Abdelrahman H, Latifi R, Galwankar S, Al-Thani H, Rizoli S
Shock (Augusta, Ga.). 2019
Abstract
BACKGROUND Uncontrolled bleeding is the main cause of the potential preventable death in trauma patients. Accordingly, we reviewed all the existing scores for massive transfusion posttraumatic hemorrhage and summarized their characteristics, thus making it easier for the reader to have a global view of these scores - how they were created, their accuracy and to which population they apply. METHODS A narrative review with a systematic search method to retrieve the journal articles on the predictive scores or models for massive transfusion was carried out. A literature search using PubMed, SCOPUS and Google scholar was performed using relevant keywords in different combinations. The keywords used were "massive transfusion", "score", "model", "trauma" and "hemorrhage" in different combinations. The search was limited for full-text articles published in English language, human species and for the duration from 01 January, 1998 to 30 November, 2018. RESULTS The database search yielded 295 articles. The search was then restricted to the inclusion criteria which retrieved 241 articles. Duplicates were removed and full-texts were assessed for the eligibility to include in the review which resulted in inclusion of 24 articles. These articles identified 24 scoring systems including modified or revised scores. Different models and scores for identifying patients requiring massive transfusion in military and civilian settings have been described. Many of these scorings were complex with difficult calculation, while some were simple and easy to remember. CONCLUSIONS The current prevailing practice that is best described as institutional or provider centered should be supplemented with score based protocol with auditing and monitoring tools to refine it. This review summarizes the current scoring models in predicting the need for MT in civilian and military trauma. Several questions remain open; i.e., do we need to develop new score, merge scores, modify scores or adopt existing score for certain trauma setting?
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The impact of hypothermia on outcomes in massively transfused patients
Lester ELW, Fox EE, Holcomb JB, Brasel KJ, Bulger EM, Cohen MJ, Cotton BA, Fabian TC, Kerby JD, O'Keefe T, et al
The Journal of Trauma and Acute Care Surgery. 2018
Abstract
BACKGROUND Hypothermia is associated with poor outcomes after injury. The relationship between hypothermia during contemporary large volume resuscitation and blood product consumption is unknown. We evaluated this association, and the predictive value of hypothermia on mortality. METHODS Patients predicted to receive massive transfusion at 12 Level-1 trauma centers, randomized in the PROPPR trial, were grouped into those who were hypothermic (<36 degrees Celsius) or normothermic (36-38.5 degrees Celsius) within the first 6 hours of Emergency department arrival. The impact of hypothermia or normothermia on the volume of blood product required during the first 24 hours was determined via negative binomial regression, adjusting for treatment arm, injury severity score, mechanism, demographics, pre-emergency department fluid volume, blood administered prior to becoming hypothermic, pulse and systolic blood pressure on arrival and the time exposed to hypothermic or normothermic temperatures. RESULTS Of 680 patients, 590 had a temperature measured during the first 6 hours in hospital, and 399 experienced hypothermia. The mean number of red blood cell units given to all patients in the first 24 hours of admission was 8.8 (95% CI 7.9-9.6). In multivariable analysis, every one-degree decrease in temperature below 36.0 degrees was associated with a 10% increase (incidence rate ratio [IRR] 0.90; 95% CI 0.89-0.92; p<0.00) in consumption of red blood cells during the first 24 hours of admission. There was no association between red blood cell administration and a temperature above 36 degrees. Hypothermia on arrival was an independent predictor of mortality, with an adjusted odds ratio of 2.7 (95% CI 1.7-4.5; p<0.00) for 24-hour and 1.8 (95% CI 1.3-2.4; p<0.00) for 30-day mortality. CONCLUSION Hypothermia is associated with increased in blood product consumption and mortality. These findings support the maintenance of normothermia in trauma patients, and suggests that further investigation on the impact of cooling or rewarming during massive transfusion is warranted. LEVEL OF EVIDENCE III Prognostic.
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Transfusion of red blood cells in patients with a prehospital Glasgow Coma Scale score of 8 or less and no evidence of shock is associated with worse outcomes
Elterman J, Brasel K, Brown S, Bulger E, Christenson J, Kerby JD, Kannas D, Lin S, Minei JP, Rizoli S, et al
The Journal of Trauma and Acute Care Surgery. 2013;75((1):):8-14; discussion 14.
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Abstract
BACKGROUND Red blood cell transfusion practices vary, and the optimal hemoglobin for patients with traumatic brain injury has not been established. METHODS A retrospective review of data collected prospectively as part of a randomized, controlled trial involving emergency medical service agencies within the Resuscitation Outcomes Consortium was conducted. In patients with a Glasgow Coma Scale (GCS) score of 8 or less without evidence of shock (defined by a systolic blood pressure [SBP] < 70 or SBP of 70 to 90 with a heart rate >=108), the association of red blood cell transfusion with 28-day survival, adult respiratory distress syndrome-free survival, Multiple Organ Dysfunction Score (MODs), and 6-month Extended Glasgow Outcome Scale (GOSE) score was modeled using multivariable logistic regression with robust SEs adjusting for age, sex, injury severity (Injury Severity Score [ISS]), initial GCS score, initial SBP, highest field heart rate, penetrating injury, fluid use, study site, and hemoglobin (Hgb) level. RESULTS A total of 1,158 patients had a mean age of 40, 76% were male, and 98% experienced blunt trauma. The initial mean GCS score was 5, and the initial mean SBP was 134. The mean head Abbreviated Injury Scale (AIS) score was 3.5. A categorical interaction of red blood cell transfusion stratified by initial Hgb showed that when the first Hgb was greater than 10 g/dL, volume of packed red blood cell was associated with a decreased 28-day survival (odds ratio, 0.83; 95% confidence interval [CI], 0.74-0.93; p < 0.01) and decreased adult respiratory distress syndrome-free survival (odds ratio, 0.82; 95% CI, 0.74-0.92; p < 0.01). When the initial Hgb was greater than 10, each unit of blood transfused increased the MODs by 0.45 (coefficient 95% CI, 0.19-0.70; p < 0.01). CONCLUSION In patients with a suspected traumatic brain injury and no evidence of shock, transfusion of red blood cells was associated with worse outcomes when the initial Hgb was greater than 10. LEVEL OF EVIDENCE Therapeutic study, level III.
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Design and preliminary results of a pilot randomized controlled trial on a 1:1:1 transfusion strategy: the trauma formula-driven versus laboratory-guided study
Nascimento B, Rizoli S, Rubenfeld G, Lin Y, Callum J, Tien HC
The Journal of Trauma. 2011;71((5, Suppl 1):):S418-26.
Abstract
BACKGROUND Retrospective reviews have recently shown an survival benefit for adopting a resuscitation strategy that transfuses plasma and platelets at a near 1:1 ratio with red blood cells (RBCs). However, a randomized controlled trial on the topic is lacking. We report on the design and preliminary results of our ongoing randomized control pilot trial (ClinicalTrial.gov NCT00945542). METHODS This is a 2-year feasibility randomized control trial at a single tertiary trauma center. Bleeding trauma patients were randomized to either a laboratory-driven or a formula-driven (1 plasma:1 platelet:1 RBC) transfusion protocols. Feasibility was assessed by analyzing for ability to enroll patients, appropriate activation of transfusion protocols, time to transfusion of each type of blood product, laboratory turnaround time, ratio of blood products transfused, and wastage of blood products. RESULTS From July 6, 2009, to May 31, 2010, n = 18 patients were randomized and included in the study. Issues that we noted were the need to do postrandomization exclusions, the need to have rapid and accurate predictors of massive bleeding to enroll patients quickly, and the need to have waived consent for study participation. As well, we noted that the logistics of administering 1:1:1 were formidable and required rapid access to thawed plasma. Similarly, challenges in the control arm of such a study included the turnaround time for obtaining laboratory results. CONCLUSION Despite major challenges, our initial experience suggests that with an organized system, it is possible to prospectively randomize massively bleeding trauma patients. The accomplishment of high ratios of plasma to RBCs is challenging with current thawing methods and unavailability of thawed plasma in Canada. Longer shelf-life for plasma and faster plasma thawing microwaves should overcome some of these obstacles. For a laboratory-guided transfusion protocol, massive transfusion protocols should be in place with faster turnaround time for coagulation tests. Finally, further research on predictors of massive transfusion is needed.