Background The Netherlands Armed Forces have been successfully using deep-frozen (- 80 degrees C) thrombocyte concentrate (DTC) for the treatment of (massive) bleeding trauma patients in austere... Show moreBackground The Netherlands Armed Forces have been successfully using deep-frozen (- 80 degrees C) thrombocyte concentrate (DTC) for the treatment of (massive) bleeding trauma patients in austere environments since 2001. However, high-quality evidence for the effectiveness and safety of DTCs is currently lacking. Therefore, the MAssive transfusion of Frozen bloOD (MAFOD) trial is designed to compare the haemostatic effect of DTCs versus room temperature-stored platelets (RSP) in the treatment of surgical bleeding. Methods The MAFOD trial is a single-blinded, randomized controlled non-inferiority trial and will be conducted in three level 1 trauma centres in The Netherlands. Patients 12 years or older, alive at hospital presentation, requiring a massive transfusion including platelets and with signed (deferred) consent will be included. The primary outcome is the percentage of patients that have achieved haemostasis within 6 h and show signs of life. Haemostasis is defined as the time in minutes from arrival to the time of the last blood component transfusion (plasma/platelets or red blood cells), followed by a 2-h transfusion-free period. This is the first randomized controlled study investigating DTCs in trauma and vascular surgical bleeding. Discussion The hypothesis is that the percentage of patients that will achieve haemostasis in the DTC group is at least equal to the RSP group (85%). With a power of 80%, a significance level of 5% and a non-inferiority limit of 15%, a total of 71 patients in each arm are required, thus resulting in a total of 158 patients, including a 10% refusal rate. The data collected during the study could help improve the use of platelets during resuscitation management. If proven non-inferior in civilian settings, frozen platelets may be used in the future to optimize logistics and improve platelet availability in rural or remote areas for the treatment of (massive) bleeding trauma patients in civilian settings. Show less
According to current guidelines, patients with thrombocytopenia due to myelosuppression are supported with platelet concentrates in order to prevent and treat bleeding complications using... Show moreAccording to current guidelines, patients with thrombocytopenia due to myelosuppression are supported with platelet concentrates in order to prevent and treat bleeding complications using algorithms which include the level of thrombocytopenia as well as varying clinical parameters, e.g. concomitant infection, the use of anticoagulant drugs, specific interventions. In the last three decades, mainly driven by safety issues, several platelet product changes were made with leukoreduction in the eighties of the previous century, plasma reduction and the use of additive solution in the nineties and the use of pathogen reduction in the first decade of this century.This thesis is mainly based on two randomised controlled trials testing the clinical efficacy of the use of additive solutions and pathogen reduction, essentially showing a decreased clinical efficacy as well as a decrease in adverse transfusion events. A bette r understanding of the pathophysiology of bleeding, thrombocytopenia and platelet transfusion refractoriness will lead to improvements in supportive care as well as patient survival, the common goal of all physicians. Show less
