Abstract
Defibrotide represents a polydeoxyribonucleotide derived antithrombotic and antiischemic drug, which has been used in the management of vascular disorders and is currently being developed in other clinical indications. Defibrotide is a polyelectrolyte-based agent with target effects on endothelium, platelets, and blood cells. In addition, the aptameric consensus sequences in the nucleotides exhibit inhibitory effects towards thrombin and related proteases. In the anticoagulant assays defibrotide exhibits relatively weak effects (<5 USP U/mg). These studies were undertaken to study whether there is an interaction between defibrotide and unfractionated heparin (UFH) in various systems of anticoagulation. The interaction of defibrotide with commercially available low molecular weight heparins (LMWHs), enoxaparin and dalteparin, was also studied. For the first investigation, to evaluate the effect of defibrotide on the anticoagulant effects of UFH, native whole blood freshly drawn from human volunteers (n = 20) was supplemented with UFH at a fixed concentration of 5 μg/mL (0.8 U/mL), and graded amounts of defibrotide were added in a concentration range of 12.5 – 100 μg/mL. The whole blood celite Activated Clotting Time test (ACT) and the thrombin generation markers fibrinopeptide A (FPA), thrombin-antithrombin complex (TAT), and prothrombin fragment 1.2 (F1.2) were measured. Parallel controls with saline were included. While defibrotide did not produce a significant prolongation of the ACT compared to saline (128 ± 9 s vs 132 ± 7 s), it produced a concentration-dependent increase in the heparinized whole blood leading to an almost doubling of the anticoagulant action of UFH (248 ± 19 s vs 418 ± 21 s). Additional studies carried out by varying the concentrations of the two agents also revealed supraadditive to synergistic effects. Defibrotide also augmented the inhibitory effects of UFH on thrombin generation markers in a concentration-dependent fashion. Similar studies carried out with the two LMWHs did not reveal a similar interaction in the anticoagulant assays such as the ACT; however, significant interactions between defibrotide and the LMWHs were observed in the thrombin generation studies. For the second investigation, studies were carried out using plasma samples collected from heparinized patients (aPTT of 50 – 100 s). These studies also revealed that supplementation of defibrotide augmented the anticoagulant effects of UFH in a concentration-dependent fashion. While defibrotide at 12.5 μg/mL did not significantly increase the aPTT of normal plasma, when supplemented to heparinized plasmas (n = 50 with aPTT of 64.6 ± 14.0 s) it produced a strong prolongation of the clotting time (96.1 ± 20.6 s). In the third investigation, animal models of thrombosis including the rat jugular vein clamping model, demonstrated an augmentation of the antithrombotic effects of intravenously administered UFH by defibrotide. However, no augmentation of the hemorrhagic effect was observed in the rat tail bleeding model. These studies demonstrate that defibrotide exhibits a strong anticoagulant interaction with UFH and to a lesser degree LMWH. While the combination of defibrotide and UFH exhibits enhanced anticoagulant/antithrombotic activities, it does not exhibit any alteration of the hemorrhagic profile. These studies clearly suggest that defibrotide can be combined with UFH to achieve a superior anticoagulant approach with better safety/efficacy profile.
Disclosures: Iacobelli:Gentium Pharmaceuticals, S.P.A.: Employment.
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