New Insights into the Coagulation System and Implications for New Therapeutic Options with Recombinant Factor VIIa

Alex      Veldman; Maureane      Hoffman; Silke      Ehrenforth

Abstract

The classical model of the coagulation cascade is to be replaced by a new, cell based model of coagulation emphasizing the interaction of coagulation proteins with cell surfaces of platelets subendothelial cells and the endothelium. According to current knowledge hemostasis is initiated by the formation of a complex between tissue factor (TF) exposed as a result of a vessel wall injury, and already activated factor (F) VII (FVIIa) normally present in the circulating blood. The TF-FVIIa complexes convert FX into FXa on the TF bearing cell. FXa then activates prothrombin (FII) into thrombin (FIIa). This limited amount of thrombin activates FVIII, FV, FXI and platelets. Thrombin-activated platelets change shape and as a result will expose negatively charged phospholipids, which form the perfect template for full thrombin generation involving FVIIIa and FIXa. Thrombin also converts fibrinogen into fibrin, it activates the fibrin stabilizing FXIII, as well as the thrombin activatable fibrinolysis inhibitor (TAFI). The fibrin structure has been found to be dependent on the amount of thrombin formed and the rate of thrombin generation. Full thrombin generation is necessary for the formation of a tight, stable fibrin hemostatic plug resistant to premature fibrinolysis which is required for full and sustained hemostasis. Since thrombin has such a crucial role in providing hemostasis, any agent that enhances thrombin generation in situations with impaired thrombin formation may be characterized as a ‘general hemostatic agent’ - a term that has been applied to recombinant activated FVII. Recombinant coagulation factor VIIa (rFVIIa; NovoSeven) was originally developed and approved for the treatment of bleeding episodes and the prevention of bleeding during surgery in hemophilia patients with inhibitors and in patients with auto-antibodies against FVIII or FIX (acquired hemophilia). As rFVIIa in pharmacological doses enhances thrombin generation on activated platelets, it has been suggested that rFVIIa may also help to improve hemostasis in other situations involving impaired thrombin generation. This is substantiated by the accumulation of published data indicating that rFVIIa is able to control bleeding in patients with thrombocytopenia or platelet function deficiencies as well as in patients without pre-existing coagulopathies.

Keywords: Coagulation System, Recombinant Factor VIIa, TF-FVIIa complexes, prothrombin, thrombocytopenia, premature fibrinolysis, acquired hemophilia