The initial aim in massive transfusion (MT) is to supply crystalloids, colloids, and plasma-poor red cell concentrates (RCCs) to maintain normovolemia and oxygen supply. This frequently leads to dilution coagulopathy, which is frequently aggravated and accelerated by hypothermia, acidosis, shock-induced impairment of liver function and disseminated intravascular coagulation (DIC), and increased consumption of clotting factors and platelets at extensive wound sites. Disorders of hemostasis deteriorate the prognosis of massively transfused patients dramatically. Therefore, the second therapeutic objective is the timely administration of plasma and platelet concentrates as required to halt the microvascular bleeding (MVB) induced by impaired hemostasis. Close laboratory monitoring, to include as a minimum platelet count, prothrombin time (PT), activated partial thromboplastin time (APTT), and fibrinogen, is essential to identify hemostatic disorders requiring therapeutic intervention. Coagulopathy promoting microvascular bleeding can be assumed when PT or APTT values exceed 1.5 times mean controls and/or when fibrinogen levels fall below 1.0 g/l. Repeated rapid infusion of 10-15 ml plasma per kg of body weight will be required to raise clotting factor levels significantly and to achieve adequate hemostasis. The turnaround time for obtaining laboratory results and for readying plasma for transfusion must be taken into particular consideration in cases of rapid blood loss.