Argatroban treatment for patients with intolerance to heparin and hirudin.

Argatroban is a synthetic thrombin inhibitor that acts independently of any cofactor. It inhibits free as well as fibrin- and clot-bound thrombin. The clinical history of two patients is presented, both with previous allergic reactions toward heparin and hirudin. In both patients, antibodies against hirudin were documented. Argatroban was successfully used in both patients without any side effects. We conclude argatroban to be the drug of choice in patients with intolerance to heparin and hirudin. Moreover, genetic variations affecting the hepatic catabolism of argatroban might exist, because very different dosages of argatroban were needed in the two patients.     

An objective perspective on recombinant hirudin: a new anticoagulant and antithrombotic agent.

Leeches have been in medical use for many years. Hirudin, the anticoagulant obtained from the medicinal leech has been purified, characterized and can now be produced by recombinant (r) technology. R-hirudin is a potent inhibitor of thrombin and is therefore a potentially valuable anticoagulant and antithrombotic drug. This article reviews the current status of r-hirudin in this role and compares the pharmacokinetics, mechanism of action and clinical efficacy of this agent with heparin. The methods available for laboratory assessment and clinical monitoring of r-hirudin and the possible ways of antagonizing its effects are also discussed. Finally, the potential clinical applications of r-hirudin are outlined, although further laboratory and clinical studies, together with a fall in the cost of this compound are required before r-hirudin can be more widely accepted as an anticoagulant and antithrombotic agent.     

Vascular dermatan sulfate regulates the antithrombotic activity of heparin cofactor II

Heparin cofactor II (HCII)-deficient mice form occlusive thrombi more rapidly than do wild-type mice following injury to the carotid arterial endothelium. Dermatan sulfate (DS) and heparan sulfate (HS) increase the rate of inhibition of thrombin by HCII in vitro, but it is unknown whether vascular glycosaminoglycans play a role in the antithrombotic effect of HCII in vivo. In this study, we found that intravenous injection of either wild-type recombinant HCII or a variant with low affinity for HS (K173H) corrected the abnormally short thrombosis time of HCII-deficient mice, while a variant with low affinity for DS (R189H) had no effect. When HCII was incubated with frozen sections of the mouse carotid artery, it bound specifically to DS in the adventitia. HCII was undetectable in the wall of the uninjured carotid artery, but it became concentrated in the adventitia following endothelial injury. These results support the hypothesis that HCII interacts with DS in the vessel wall after disruption of the endothelium and that this interaction regulates thrombus formation in vivo.     

Use of recombinant hirudin as antithrombotic treatment in patients with heparin-induced thrombocytopenia

Heparin-induced thrombocytopenia is a rare but severe complication of heparin therapy that can result in severe venous or arterial thromboembolic events and whose treatment remains partially unanswered. Recombinant hirudin is potentially effective as an antithrombotic treatment in the management of heparin-induced thrombocytopenia, given its potent antithrombin effects without known interaction with platelets. We report the results obtained with intravenous recombinant hirudin (HBW 023) administered on a compassionate basis to patients suffering from heparin-induced thrombocytopenia. Six patients suffering from heparin-induced thrombocytopenia were submitted to intravenous recombinant hirudin (HBW 023) administered at a dose of 0.05 mg/kg/hr after an initial bolus injection of 0.07 mg/kg in the case of a venous thromboembolic event, and at a dose of 0.15 mg/kg/hr with the same initial bolus injection in the case of an arterial thromboembolic event. Whenever possible, oral anticoagulation with acenocoumarol was introduced at the same time as recombinant hirudin, which was interrupted as soon as the international normalized ratio reached 3. Clinical events, particularly thromboembolism and bleeding, were noted; activated partial thromboplastin time (aPTT), and platelet count were assessed throughout the administration of recombinant hirudin. Heparins responsible for heparin-induced thrombocytopenia were porcine sodium or calcium heparinate in four cases, nadroparin in one case, and enoxaparin in one case. Thrombocytopenia was discovered on routine systematic platelet count in two patients and after the occurrence of arterial and venous thromboembolism in two patients, respectively. After discontinuation of heparin and the onset of recombinant hirudin, clinical evolution was uneventful in all patients, with no recurrence of thromboembolism, limb amputation, or hemorrhagic complication. The aPTT ratio varied from 1.8 to 3.5 (median 2.4) throughout administration of recombinant hirudin. Platelet count rose from nadir (median value 60 × 10⁹ 15 to 90) to above 100 × 10⁹/L in every patient within 3–6 days (median 5), after discontinuation of heparin. Intravenous administration of recombinant hirudin ensured safe anticoagulation in patients with heparin-induced thrombocytopenia and made it possible to wait for oral anticoagulation to become efficient and platelet count to return to normal values without occurrence or recurrence of thromboembolism.     

In vivo thrombin generation and activity during and after intravenous infusion of heparin or recombinant hirudin in patients with unstable angina pectoris

In patients with unstable angina, intravenous heparin reduces thrombin activity but does not influence thrombin generation. Recombinant hirudin, a direct thrombin inhibitor, may be more effective in inhibiting both thrombin generation and activity. We measured the plasma levels of prothrombin fragment 1+2 (a marker of thrombin generation) and fibrinopeptide A (a marker of thrombin activity) in 67 patients with unstable angina enrolled in the GUSTO (Global Use of Strategies to Open Occluded Coronary Arteries) IIb trial who were receiving either recombinant hirudin (31 patients) or heparin (36 patients). Blood samples were obtained at baseline (before any treatment), after 3 to 5 days of study drug infusion (immediately before discontinuation), and 1 month later. In the patients receiving recombinant hirudin, the prothrombin fragment 1+2 levels measured immediately before drug discontinuation were significantly lower than at baseline (P:=0.0014), whereas they had not changed in the patients receiving heparin; at this time point, the difference between patients receiving hirudin and those receiving heparin was statistically significant (P:=0.032). One month later, the prothrombin fragment 1+2 levels in both groups were similarly persistently high and did not differ from baseline. Fibrinopeptide A plasma levels at the end of infusion were significantly lower than at baseline in both treatment groups (P:=0. 0005 for hirudin and P:=0.042 for heparin) and remained lower after 1 month (P:=0.0001 for both hirudin and heparin). The fibrinopeptide A plasma levels were not different between patients treated with hirudin versus heparin at baseline, at the end of infusion, and after 1 month. Thus, in patients with unstable angina, in vivo thrombin generation and activity are reduced during intravenous infusion of recombinant hirudin. However, the inhibition of thrombin generation is not sustained, and after 1 month, the majority of patients have biochemical signs of increased thrombin generation.     

Effect of hirudin vs heparin on haemostatic activity in patients with acute coronary syndromes; the GUSTO-IIb haemostasis substudy.

AIMS: We compared the effects of hirudin and heparin on thrombin generation and activity among 350 patients with acute coronary syndromes enrolled in the GUSTO-IIb trial. METHODS AND RESULTS: We obtained blood at baseline; at 4, 8, and 24h into infusion; at drug termination; and 6 and 24h after termination. We assayed for thrombin activity (fibrinopeptide A, activated protein C, thrombin-antithrombin complex), thrombin generation (prothrombin fragment 1.2), and platelet activation (platelet factor 4). Median baseline fibrinopeptide A and platelet factor 4 levels were elevated. Thrombin formation tended to increase with hirudin and decrease with heparin; by 8h into infusion, thrombin formation was significantly less for heparin (P<0.01). Most patients showed reduced thrombin activity and platelet activation during infusion of either agent. Hirudin-assigned patients had significantly lower fibrinopeptide A levels during infusion. Six h post-termination, both groups had increased thrombin activity. Thrombin formation was increased in heparin patients (P<0.0001), significantly more than with hirudin (P=0.005). Higher values of haemostasis markers tended to be associated with poorer 30-day outcomes. CONCLUSION: Although hirudin did not prevent generation of new thrombin, it appeared to inhibit thrombin activity more than did heparin and produced slower increases in thrombin formation after discontinuation. The reelevation of thrombotic markers after stopping intravenous antithrombin therapy and the tendency toward increased thrombotic events with post-treatment increases in marker levels suggest an ongoing, clinically significant prothrombotic state. These results raise the possibility of improving on current antithrombotics by preventing thrombin generation and thrombin activity and by sustained suppression of the prothrombotic state.     

Effect of activated protein C on plasma plasminogen activator inhibitor activity in patients with acute myocardial infarction treated with alteplase: comparison with unfractionated heparin

OBJECTIVES: We examined whether activated protein C (APC) is an effective conjunctive therapy to thrombolysis in patients with ST-segment-elevated acute myocardial infarction (AMl). BACKGROUND: Activated protein C possesses both systemic anticoagulant and anti-inflammatory properties. It has been also shown to enhance fibrinolysis by inhibiting plasminogen activator inhibitor (PAI) activity in vitro. METHODS: After successful thrombolysis with alteplase, study patients were assigned to receive one of the two conjunctive therapies for 48 h intravenously: human plasma-derived APC at 0.06 mg/kg per day (APC group, n = 9) or unfractionated heparin at 100 to 400 U/kg per day, adjusted to maintain an activated partial thromboplastin time at 1.5 to 2 times of the control level (heparin group, n = 10). RESULTS: Adverse events, including reocclusion of the recanalized infarct-related coronary artery and major or minor hemorrhagic complications, occurred more frequently in the heparin group (4 of 10 cases) than in the APC group (none of 9 cases) (p = 0.033). In the heparin group, plasma PAI activity (IU/ml, median value [range]) was increased continuously from 8 to 24 h after thrombolysis and peaked at 24 h (30.9 [11.3 to 38.5]); on the other hand, it was not increased in the APC group at 24 h after thrombolysis (11.3 [0.0 to 31.0], p < 0.01 vs. heparin group). CONCLUSIONS: Administration of APC suppressed increasing of plasma PAI activity observed after thrombolysis in patients with AMI. The effect of APC could be more eligible, compared with heparin, as a conjunctive regimen to thrombolysis in AMI patients.     

Treatment of proximal deep-vein thrombosis using subcutaneously administered calcium heparin: comparison with intravenous sodium heparin.

In a prospective, randomized clinical trial we compared the efficacy of subcutaneously (SC) administered (every 8 h) calcium heparin to intravenous (IV) sodium heparin in the treatment of proximal deep-vein thrombosis (DVT). A secondary objective was to give enough heparin to achieve a therapeutic anticoagulant effect by the end of the first 24 h. Five of 36 patients (14%) in the SC heparin group failed to achieve a therapeutic anticoagulant effect by the end of the first 24 h compared to 2 of 23 patients (9%) in the IV group (p = NS; 95% CI for true difference = -11.7% to 22.1%). Two of 31 patients (6.5%) in the SC group had venographic evidence of clot propagation compared to 1 of 19 patients (5.3%) in the IV group (p = NS; 95% CI for true difference = -12.4% to 14.8%). The rate of major hemorrhagic complications was similar in each group (approximately 15%). We conclude: (1) using a large initial dose of SC heparin, a therapeutic anticoagulant effect can be readily achieved within 24 h, and (2) combining the results of this trial with previous studies, the efficacy of SC administered calcium appears to be comparable to IV sodium heparin.     

A modified stasis thrombosis model to study the antithrombotic actions of heparin and its fractions

The original stasis thrombosis model of Wessler has been modified. Numerous thrombogenic agents were evaluated for their pathophysiologic effects and were classified in terms of stasis clot in the jugular vein. Alterations produced in coagulation parameters, such as the PT, APTT, thrombin time, activated recalcification time (Hemachron), and thrombelastographic pattern were recorded. Since the pathophysiologic activation of the hemostatic system varies considerably in different diseases, a proper animal model along with a proper type of thrombogenic trigger should be carefully selected to produce pathogenesis and to study the therapeutic responses of heparin and its derivatives. In the modified stasis thrombosis model, besides monitoring the formation of the jugular vein stasis clot, it is proposed that the following tests may be useful to establish hypercoagulable states: Functional levels of various coagulation factors, platelet counts, fibrinogen levels, and whole blood activated clotting times. The nature of activation processes in each thrombogenic challenge should be carefully analyzed in terms of pathways involved; for example, the administration of heterologous serum (such as human, monkey) to rabbits produces anaphylactoid reactions, including hemolysis, thrombocytopenia, clinical chemistry abnormalities (enzymes), and many problems that may involve the complement and immune systems. All previous data obtained using heterologous sera as a thrombogenic trigger are of questionable value as to the efficacy of some of the antithrombotic agents tested against it. In addition to the species and the thrombogenic challenge, the following factors may contribute significantly to the pathophysiologic response and its alteration by various agents: (1) Composition of the thrombogenic agent; (2) effect of preparatory drugs, such as anesthetics, on the hemostatic parameters; (3) alterations on injection time, volume, osmolarity, and temperature; (4) variations in the circulation time of the thrombogenic agent and stasis time of the ligated jugular vein stasis segment; and (5) blood sample collection and handling. Since the kallikrein-kinin cascade is closely associated with the coagulation and the fibrinolytic network, a systemic monitoring of blood pressure may provide information on the effect of thrombogenic agents on hemodynamics.(ABSTRACT TRUNCATED AT 400 WORDS)     

Comparison of recombinant hirudin and heparin as an anticoagulant in a cardiopulmonary bypass model.

Recombinant (r) hirudin is a potent thrombin-specific inhibitor originally derived from the natural hirudin of the leech (Hirudo medicinalis). We have studied the efficacy of r-hirudin compared to heparin in a dog model of cardiopulmonary bypass (CPB) surgery. Two administration regimens were used for r-hirudin: Group I received 1.0 mg/kg intracardiac (i.c.) bolus then intravenous (i.v.) bolus at 30 min (n = 10); Group II received 1.0 mg/kg (i.c.) bolus with 1.25 +/- 0.04 mg/kg/h (i.v.) infusion (n = 8). Group III was given heparin 1.66 mg/kg (i.c.) bolus (n = 9). Aspiration of blood from the chest cavity revealed no significant difference between the three groups. Measurement of fibrin deposits in the pump line filter revealed higher amounts in the r-hirudin groups (P = 0.02). Decreases in platelets, fibrinogen and haematocrit due primarily to haemodilution were the same in each group. The bleeding time was less prolonged for r-hirudin than for heparin (p less than 0.001). No antagonist for r-hirudin was used; however, due to its short half-life, all coagulation parameters returned to baseline within 30 min after CPB. Since r-hirudin has no effect on platelets, is a poor immunogen, does not require a plasma cofactor, and may not require an antagonist, it may provide an alternative anticoagulant to heparin in CPB. Additional studies are, however, needed to optimize the dose and to evaluate other clinical aspects of r-hirudin.