rivaroxaban and melagatran

Increased hypercoagulability has been reported with low doses of direct thrombin inhibitors but not with direct factor Xa inhibitors.. To compare the effects of rivaroxaban with those of melagatran and dabigatran on thrombin generation (TG) and tissue factor-induced hypercoagulability and to explore the possible involvement of the thrombin-thrombomodulin/activated protein C system.. In normal human plasma and in protein C-deficient plasma, TG was investigated in vitro in the presence and absence of recombinant human soluble thrombomodulin (rhs-TM). TG was determined by calibrated automated thrombography and an ELISA for prothrombin fragments 1+2 (F1+2 ). In an in vivo rat model, hypercoagulability was induced by tissue factor; levels of thrombin-antithrombin (TAT) and fibrinogen and the platelet count were determined.. Rivaroxaban inhibited TG in a concentration-dependent manner. In the absence of rhs-TM, melagatran and dabigatran also inhibited TG concentration dependently. However, in the presence of rhs-TM, lower concentrations of melagatran (119-474 nmol L(-1) ) and dabigatran (68-545 nmol L(-1) ) enhanced endogenous thrombin potential, peak TG, and F1+2 formation in normal plasma but not in protein C-deficient plasma. In vivo, rivaroxaban dose-dependently inhibited TAT generation, whereas melagatran showed a paradoxical effect, with an increase in TAT and a small decrease in fibrinogen and platelet count at lower doses.. Low concentrations of the direct thrombin inhibitors melagatran and dabigatran enhanced TG and hypercoagulability, possibly via inhibition of the protein C system. In contrast, rivaroxaban reduced TG and hypercoagulability under all conditions studied, suggesting that it does not suppress this negative-feedback system.

Topics: Animals; Antithrombins; Azetidines; Benzylamines; Blood Coagulation; Blood Platelets; Enzyme-Linked Immunosorbent Assay; Factor Xa Inhibitors; Humans; Male; Morpholines; Plasma; Platelet Count; Protein C; Prothrombin; Rats; Rats, Wistar; Rivaroxaban; Thiophenes; Thrombelastography; Thrombin; Thrombomodulin; Thrombophilia; Thromboplastin

The anticoagulant and antithrombotic profiles of TAK-442, a direct factor Xa (FXa) inhibitor, were investigated. TAK-442 showed potent inhibition of human FXa (Ki = 1.8 nM) and high specificity, with a 440-fold greater selectivity than thrombin and negligible effects on trypsin, plasmin, and tissue plasminogen activator (K(i) > 30 microM). [corrected] In human plasma, TAK-442 doubled FXa-induced clotting time, prothrombin time (PT), and activated partial thromboplastin time at 0.19, 0.55, and 0.59 microM, respectively. The relative PT-prolonging potencies of TAK-442, rivaroxaban, and apixaban were 1, 2.0-2.6, and 0.46-1.3, respectively, in 4 different PT reagents. In a rabbit model of venous thrombosis, 50- and 100-micrograms/kg [corrected] TAK-442 (intravenous bolus followed by 1-hour infusion) reduced thrombus formation by 50% and 81%, with plasma anti-FXa activity of 23%-26% and 34%-38%, respectively, and only marginal prolongation of PT and activated partial thromboplastin time. Melagatran, a thrombin inhibitor, showed similar antithrombotic activity to TAK-442. However, 500-micrograms/kg [corrected TAK-442 did not affect bleeding time (BT), whereas the same dose of melagatran significantly prolonged BT by 3.6-fold compared with vehicle control. These findings suggest that TAK-442 has similar antithrombotic effects as melagatran but does not cause BT prolongation, and plasma anti-FXa activity may reliably predict its potency.

Topics: Animals; Anticoagulants; Azetidines; Benzylamines; Bleeding Time; Blood Coagulation; Blood Coagulation Tests; Dogs; Factor Xa Inhibitors; Fibrinolytic Agents; Humans; Macaca fascicularis; Male; Mice; Mice, Inbred ICR; Morpholines; Pyrazoles; Pyridones; Pyrimidinones; Rabbits; Rats; Rats, Sprague-Dawley; Rivaroxaban; Sulfones; Thiophenes; Thrombin; Venous Thrombosis