Ex vivo reversal of the anticoagulant effects of edoxaban.

INTRODUCTION: Edoxaban is an oral, once-daily direct factor Xa (FXa) inhibitor. Although rapidly cleared, strategies to reverse edoxaban-mediated effects on anticoagulation are needed in cases of excessive bleeding or emergency. This study evaluated the effect of two prohemostatic agents, recombinant factor VIIa (rFVIIa) and factor VIII inhibitor bypass activity (FEIBA), on the anticoagulatory effects of supratherapeutic concentrations of edoxaban in human whole blood ex vivo. MATERIALS AND METHODS: Blood samples were collected from six healthy volunteers. Edoxaban (500 or 1000 ng/mL), alone or followed by rFVIIa (0.8 or 1.8µg/mL) or FEIBA (0.75 or 1.5 U/mL), was added to an aliquot of each sample. Biomarkers, including prothrombin time (PT), activated partial thromboplastin time (aPTT), extrinsic FXa activity (anti-FXa), intrinsic factor X activity, and D-dimer, were assessed at 0.25, 0.5, 1, 2, and 4 hours after adding rFVIIa or FEIBA. RESULTS: Decreases in measures of PT (p<0.0001), aPTT (p<0.0001), and anti-FXa (p<0.0001) were observed when rFVIIa or FEIBA was added to edoxaban-containing blood samples. Intrinsic FX activity was increased up to 20% and 31% of normal in the presence of edoxaban by rFVIIa and FEIBA, respectively. The impact of these agents on the anticoagulant effects of edoxaban were observed within 15 minutes and remained relatively unchanged at each timepoint thereafter. CONCLUSIONS: The findings of this ex vivo study suggest that rFVIIa and FEIBA rapidly reversed edoxaban-mediated anticoagulation effects based on PT and aPTT, but had minimal effect based on intrinsic FX activity. No dose response was observed for rFVIIa or FEIBA.

Management of major bleeding complications and emergency surgery in patients on long-term treatment with direct oral anticoagulants, thrombin or factor-Xa inhibitors: proposals of the working group on perioperative haemostasis (GIHP) - March 2013.

Direct new oral anticoagulants (NOACs) - inhibitors of thrombin or factor Xa - are intended to be used largely in the treatment of venous thromboembolic disease or the prevention of systematic embolism in atrial fibrillation, instead of vitamin K antagonists. Like any anticoagulant treatment, they are associated with spontaneous or provoked haemorrhagic risk. Furthermore, a significant proportion of treated patients are likely to be exposed to emergency surgery or invasive procedures. Given the absence of a specific antidote, the action to be taken in these situations must be defined. The lack of data means that it is only possible to issue proposals rather than recommendations, which will evolve according to accumulated experience. The proposals presented here apply to dabigatran (Pradaxa(®)) and rivaroxaban (Xarelto(®)); data for apixaban and edoxaban are still scarce. For urgent surgery with haemorrhagic risk, the drug plasma concentration should be less or equal to 30ng/mL for dabigatran and rivaroxaban should enable surgery associated with a high bleeding risk. Beyond that, if possible, the intervention should be postponed by monitoring the drug concentration. The course to follow is then defined according to the NOAC and its concentration. If the anticoagulant dosage is not immediately available, worse propositions, based on the usual tests (prothrombin time and activated partial thromboplastin time), are presented. However, these tests do not really assess drug concentration or the risk of bleeding that depends on it. In case of serious bleeding in a critical organ, the effect of anticoagulant therapy should be reduced using a non-specific procoagulant drug as a first-line approach: activated prothrombin complex concentrate (aPCC) (FEIBA(®) 30-50U/kg) or non-activated PCC (50U/kg). In addition, for any other type of severe haemorrhage, the administration of a procoagulant drug, which is potentially thrombogenic in these patients, is discussed according to the NOAC concentration and the possibilities of mechanical haemostasis.

The effects of the antiplatelet agents, aspirin and naproxen, on pharmacokinetics and pharmacodynamics of the anticoagulant edoxaban, a direct factor Xa inhibitor.

Edoxaban is an oral factor Xa (FXa) inhibitor in clinical development for stroke prevention in patients with atrial fibrillation, an elderly population that frequently receives aspirin (ASA) and/or nonsteroidal anti-inflammatory drugs for concurrent illnesses. Three studies were conducted to evaluate the pharmacokinetic and pharmacodynamic interactions of edoxaban 60 mg coadministered with low-dose (100 mg) ASA, high-dose (325 mg) ASA, or naproxen (500 mg) in healthy subjects (n = 126). Template bleeding times (BT) were measured. Mean baseline (predose) BT for the 3 studies ranged from 4.72 to 6.13 minutes. Edoxaban administered alone increased BT by 21%-35% (4 hours post dose) from baseline. Concomitant administration of edoxaban with high-dose ASA, low-dose ASA, or naproxen increased BT approximately 2-fold showing an additive effect greater than either agent administered alone. Edoxaban pharmacokinetics were not affected by concomitant low-dose ASA or naproxen, but high-dose ASA increased systemic exposure of edoxaban by approximately 30%. The effects of edoxaban on prothrombin time, activated partial thromboplastin time, international normalized ratio, anti-FXa, and intrinsic FXa activity were not influenced by administration with ASA or naproxen. Inhibition of platelet aggregation by high-dose ASA, low-dose ASA, or naproxen was not affected by edoxaban. Concomitant administration of edoxaban and ASA or naproxen was well tolerated.

Functionality of fondaparinux (pentasaccharide) depends on clinical antithrombin levels.

Fondaparinux (Arixtra) is an antithrombin (AT)-dependent synthetic inhibitor of factor Xa (FXa). We undertook a study to determine the ramifications of varying levels of circulating AT on the pharmacologic activity of fondaparinux. AT-deficient human plasma supplemented with 0.125-2.0 U/ml purified human AT and plasmas from liver disease patients (n = 20; 0.3 U/ml AT) were supplemented with fondaparinux (0.125-12.5 µg/ml) then assayed by an amidolytic anti-FXa assay and the clot-based Heptest. A decrease in fondaparinux activity was observed with AT levels of 0.5 U/ml that became more pronounced with decreasing AT levels. For 0.2-1.5 µg/ml fondaparinux (plasma concentrations achieved with dosages for prophylaxis and treatment of venous thromboembolism) and AT levels of 0.5 U/ml there was 20% loss of activity and with 0.25 U/ml AT there was a 45% loss of activity compared to 1 U/ml AT. Increasing AT levels to over 0.5 U/ml or increasing fondaparinux concentrations for AT levels between 0.5 and 1 U/ml achieved fondaparinux activity comparable to that obtained with 1 U/ml AT. With AT levels above 1.0 U/ml a greater inhibitory activity was achieved. The observed potency of fondaparinux in terms of anti-FXa activity was reduced approximately three-fold in patients with liver disease. These in-vitro findings were confirmed in a rabbit model of stasis thrombosis. With AT levels below 30% of normal induced by anti-AT antibodies, there was a 60% in-vivo reduction in the antithrombotic activity of fondaparinux (ED50 75 vs. 240 µg/kg). In summary, the AT level is a rate-limiting factor for the antithrombotic activity of fondaparinux.

Laboratory assessment of new anticoagulants.

With the introduction of new anticoagulant agents, there is a need for information on which coagulation tests are most suitable. These agents react differently to assays used to monitor older anticoagulant agents because they have alternative modes of action. Therefore, other tests, or modifications of existing tests which are more appropriate for newer agents, are needed. The prothrombin time test (with conversion to the international normalized ratio) is usually used to monitor warfarin. However, conversion to the international normalized ratio is not appropriate for measuring the effects of fondaparinux, dabigatran, rivaroxaban or apixaban. Instead, chromogenic assays, one-step prothrombinase-induced clotting time test and the HepTest with reduced incubation time, are among the different or modified tests that appear to give the most reproducible and accurate results. The tests show variations in response to anticoagulants - some of which have clinical relevance. Thus, it is important to be aware of the observed variations in order to prevent the misinterpretation of test results.

Does ambulation modify venous thromboembolism risk in acutely ill medical patients?

In the US, ambulatory status is often a criterion for stopping prophylaxis for venous thromboembolism (VTE). In an analysis of the prophylaxis in MEDical patients with ENOXaparin (MEDENOX) trial, ambulatory status was assessed as outcome and patients grouped accordingly for further analysis. Rates of VTE and bleeding were evaluated. Using multivariate logistic regression, the relationships between thromboprophylaxis, VTE risk, and ambulatory status were assessed. Ambulatory status was reached in 607/1,084 patients, in a mean time of 4.4 days. Thromboprophylaxis was provided for 7.3 and 7.7 days in the ambulatory and non-ambulatory groups. Although VTE rates were lower in ambulatory patients, enoxaparin 40 mg once daily significantly reduced the risk of VTE vs. placebo in ambulatory (3.3% vs. 10.6%; relative risk [RR] = 0.31; 95% confidence interval [CI], 0.13-0.78; p=0.008) and non-ambulatory patients (9.0% vs. 19.7%; RR = 0.46; 95% CI, 0.23-0.91; p=0.02). Major bleeding was not significantly different between enoxaparin and placebo in either group. By multivariate regression analysis, VTE risk in ambulatory patients was lower with enoxaparin vs. placebo (odds ratio [OR] = 0.28; 95% CI, 0.11-0.74; p=0.01), but higher in patients with a history of VTE (OR = 3.74; 95% CI, 1.59-8.84; p=0.003) or cancer (OR = 2.12; 95% CI, 1.00-4.48; p=0.049). Despite timely mobilisation, patients who become ambulatory are at VTE risk and experience a significant risk reduction with enoxaparin 40 mg. Therefore, it is essential that ambulatory patients receive recommended thromboprophylaxis.

Comparison of a direct Factor Xa inhibitor, edoxaban, with dalteparin and ximelagatran: a randomised controlled trial in healthy elderly adults.

INTRODUCTION: Edoxaban (the free base of DU-176b) is a new, oral direct Factor Xa inhibitor. This is the first study to compare the hemostatic response to edoxaban, ximelagatran, and dalteparin in healthy, elderly adults. MATERIALS AND METHODS: In this open-label, active-controlled clinical trial, 40 adults (65-75 years), were randomised to: oral edoxaban (60 mg, twice-daily, 7 doses), subcutaneous dalteparin (5000 IU, once-daily, 4 doses), oral ximelagatran (24 mg, twice-daily, 7 doses) or no drug. Blood samples were taken before, and 1.5, 4, 12, 24, 72, 84, 96, 108, 120, and 144 hours after, the first dose. The primary outcomes were changes in thrombin-antithrombin complex, prothrombin fragment 1+2 and D-dimer, and adverse events. Additional biomarkers of coagulation, and endothelial cell and platelet activation were compared (ANOVA). RESULTS: All subjects completed the study. Inhibition of thrombin generation lag time, peak, and constant velocity index were significantly greater, and extended for a longer period of time, following edoxaban administration, compared with dalteparin. We found that the traditional assay for anti-FXa activity was not appropriate for the new anticoagulants. Biomarker changes following edoxaban administration (including prolongation of prothrombin time) reflected inhibition of Factor Xa; there was no effect on platelet, tissue factor or endothelial activation. There were no clinically significant changes in primary outcomes. No serious adverse events were reported. CONCLUSION: Oral administration of edoxaban resulted in effective Factor Xa and TG inhibition, and was well-tolerated. Studies are needed to confirm edoxaban (60 mg daily) use in clinical practice. SPONSORSHIP: Daiichi Sankyo Pharma Development.

Response variability to aspirin and one-year prediction of vascular events in patients with stable coronary artery disease.

The aim of this study was to assess the association between "aspirin non responsiveness" in patients with coronary artery diseases (CAD) and the risk of major adverse cardiovascular events (MACE). 204 patients with CAD receiving aspirin (250 mg/d) were included. Both Collagen/Epinephrine Closure Time (CEPI-CT) and urinary Thromboxane B2 (uTxB2) concentration was used to determine the patients aspirin responsiveness. The clinical primary endpoint was the occurrence of MACE including: cardiovascular death, MI, stroke or transient ischemic attack. The secondary endpoint was the occurrence of Recurrent Acute Vascular Event (RAVE: MI, stroke or transient ischemic attack). After 1-year follow-up, no responders diagnosed by CEPI-CT had a trend for higher risk of MACE (13% vs 7.4%; P = 0.22) and significant higher risk of RAVE (OR = 2.1; 95%CI: 1.7-2.4; P = 0.01) when compared to good responders. Multivariate analysis showed that CEPI-CT < 143 s was the only independent predictor of RAVE (OR = 6.3; 95% CI: 1.2-32.2; P = 0.026). Aspirin non-responsiveness, diagnosed by the uTxB2, was not associated with an increased risk of either MACE or RAVE. Our results, reinforce the importance of being able to diagnose laboratory "aspirin non responsiveness", and extend the evidence that aspirin non responsiveness may explain in part the occurrence of RAVE.

Differential inhibition of thrombin generation by vitamin K antagonists alone and associated with low-molecular-weight heparin.

Vitamin K antagonists (VKA) treatment starts with co-administration of low-molecular-weight heparin (LMWH). The anticoagulation induced by the two drugs is still not well determined. In the present study we used thrombin generation assay to evaluate the hypo-coagulation induced by treatment with VKA and by the combination of VKA with LMWH. Tissue factor triggered thrombin generation in platelet-poor plasma was assessed in samples from 15 healthy volunteers, 97 samples from patients treated with VKA and 41 samples from patients receiving enoxaparin and VKA. Patients were classified according to international normalised ratio (INR) level (<2, 2-3 and >3). In plasma samples from patients treated with VKA having INR 2-3 the inhibition of thrombin generation reached 50% compared to controls. In samples with INR>3 this inhibition was 80%. In samples from patients receiving both LMWH and VKA, thrombin generation was significantly decreased compared to the controls and VKA group. In samples with an INR 2-3 obtained from patients treated with LMWH and VKA, the inhibition of thrombin generation was similar to that observed in samples with an INR>3 obtained from VKA treated patients. Thrombin generation assay is sensitive to detect the global the anticoagulant effect produced by the association of LMWH and VKA. For equal INR dual anticoagulant treatment induces significantly more profound inhibition of thrombin generation compared to treatment with VKA alone. The clinical relevance of this observation merits to be studied in prospective studies in patients with defined indications of anticoagulant therapy.

Parenteral anticoagulants: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines (8th Edition).

This chapter describes the pharmacology of approved parenteral anticoagulants, including the indirect anticoagulants, unfractionated heparin (UFH), low-molecular-weight heparins (LMWHs), fondaparinux, and danaparoid as well as the direct thrombin inhibitors hirudin, bivalirudin, and argatroban. UFH is a heterogeneous mixture of glycosaminoglycans that bind to antithrombin via a unique pentasaccharide sequence and catalyze the inactivation of thrombin factor Xa and other clotting factors. Heparin also binds to cells and other plasma proteins, endowing it with unpredictable pharmacokinetic and pharmacodynamic properties, and can lead to nonhemorrhagic side effects, such as heparin-induced thrombocytopenia (HIT) and osteoporosis. LMWHs have greater inhibitory activity against factor Xa than thrombin and exhibit less binding to cells and proteins than heparin. Consequently, LMWH preparations have more predictable pharmacokinetic and pharmacodynamic properties, have a longer half-life than heparin, and have a lower risk of nonhemorrhagic side effects. LMWHs can be administered once or twice daily by subcutaneous injection, without anticoagulant monitoring. Based on their greater convenience, LMWHs have replaced UFH for many clinical indications. Fondaparinux, a synthetic pentasaccharide, catalyzes the inhibition of factor Xa, but not thrombin, in an antithrombin-dependent fashion. Fondaparinux binds only to antithrombin; therefore, HIT and osteoporosis are unlikely to occur. Fondaparinux has excellent bioavailability when administered subcutaneously, has a longer half-life than LMWHs, and is given once daily by subcutaneous injection in fixed doses, without anticoagulant monitoring. Three parenteral direct thrombin inhibitors and danaparoid are approved as alternatives to heparin in HIT patients.

New antithrombotic drugs: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines (8th Edition).

This chapter focuses on new antithrombotic drugs that are in phase II or III clinical testing. Development of these new agents was prompted by limitations of existing antiplatelet, anticoagulant, or fibrinolytic drugs. Addressing these unmet needs, this chapter (1) outlines the rationale for development of new antithrombotic agents, (2) describes the new antiplatelet, anticoagulant, and fibrinolytic drugs, and (3) provides clinical perspectives on the opportunities and challenges faced by these novel agents.

Screening for aspirin resistance in stable coronary artery patients by three different tests.

BACKGROUND: Aspirin (ASA) failure to inhibit in vitro platelet function had been termed ASA resistance. The prevalence of this phenomenon as measured with different platelet function tests varies widely among studies. OBJECTIVES: In this study, we propose to determine the prevalence of ASA non-responsiveness in stable coronary artery patients using three different tests. PATIENTS AND METHODS: One hundred ninety-one patients with a stable coronary artery disease and receiving secondary ASA prophylaxis (250 mg/day) were tested. For each patient the ASA-induced platelet inhibition was determined using three different tests: Ivy Bleeding time (BT), collagen/epinephrine closure time (CEPI-CT; PFA-100, Dade-Behring) and urinary 11-dehydrothromboxane B2 (uTxB2) excretion level. The agreement between these tests was evaluated by kappa statistics test. RESULTS: The prevalence of biological ASA resistance was 15.7% (n=30), 20.4% (n=39) and 24.6% (n=47) by BT, PFA-100 and UTxB2, respectively. Only fourteen patients (7.3%) were non-responders for two tests: 6 (3.1%) BT/ PFA-100; 1 (0.5%) BT/UTxB2; 7 (3.7%) PFA-100/UTxB2). A poor agreement was found between these three methods and only 3 patients were resistant with all the tests (1.6%). CONCLUSION: The lack of agreement supposed that different types of aspirin resistance exist. Thus, combination of two tests or more could be a primary solution for a better identification of ASA resistant patients. This hypothesis must be confirmed by a large-scale randomized study with clinically well-defined endpoints.

The influence of fibrin polymerization and platelet-mediated contractile forces on citrated whole blood thromboelastography profile.

Thromboelastography analysis providing a global assessment of coagulation is gaining new interest in clinical practice. MinimalTF triggered whole blood thromboelastography provides a valuable tool for studying the kinetics of clot formation (expressed by the parameters R, K and alpha-angle) and the physical characteristics of the clot, such as its firmness and the elastic modulus shear (expressed by the parameters maximal amplitude MA and G). We studied the influence of fibrin polymerization and platelet functional status on each parameter of thromboelastographic trace obtained by minimalTF activation inWB by employing increasing concentrations of a fibrin polymerization inhibitors (the tetrapeptide Gly-Pro-Arg-Pro-OH.AcOH; Pefabloc-FG) and an inhibitor of actin polymerization (Cytochalasin D). Pefabloc-FG at concentrations higher than 5 mg/ml prolonged the R and K times and decreased the alpha-angle in a concentration-dependent manner but it did not modify MA and G parameters. At the concentration of 5 mg/ml, Pefabloc-FG completely inhibited clot formation. Cytochalasin D had no effect on R time but decreased the alpha-angle, MA and G parameters by reaching a plateau at the concentration of 5 microM. The effect of cytochalasin D was more pronounced on MA and G than on the alpha-angle. A combination of both Pefabloc-FG (0.5 mg/ml) and cytochalasin D (50 microM) significantly decreased alpha-angle compared to control as well as their single effect. However, G value was dramatically reduced in the presence of cytochalasin D exposure, without any additional effect when both inhibitors were combined. This study confirms the importance of fibrin polymerisation on the kinetics of thrombus formation and demonstrates the close association between the quality of the thrombus and the functional status of platelets. Normal platelet contractile forces are of major importance for the maximum amplitude of TEG which is related to the strength and elastic modulus of the thrombus.

Heterogeneity of synthetic factor Xa inhibitors.

Heparins and vitamin K antagonists are the landmarks of antithrombotic treatment. Both of them were discovered by serendipity; they are multi-targeted drugs and share several limitations. New molecules have been designed in order to be both more selective concerning their biological target and more homogeneous in their biochemical structure aiming at an improved benefit/risk ratio in the treatment of thrombotic disease. In this article, we will review the pharmacological characteristics of the new synthetic direct or antithrombin dependent inhibitors of FXa in the light of the modern concept of blood coagulation process. We will also present the most recent data from the clinical trials with synthetic inhibitors of FXa. Among them, the synthetic pentasaccharide fondaparinux is the first synthetic and specific FXa inhibitor, which has been approved by health authorities in Europe and in the USA for the prophylaxis of venous thromboembolism in major orthopaedic surgery and is being approved for the treatment of pulmonary embolism and DVT as a single daily subcutaneous injection. The phase II dose-finding trial of the "meta-pentasaccharide" idraparinux administered subcutaneously once weekly in the secondary prevention of VTE has been completed. DX-9065a is the first direct synthetic inhibitor which has been studied in patients with coronary disease. Razaxaban, BAY59-7939, ZK-807834 and JTV-803 are orally active direct FXa inhibitors, which have been studied in phase II trials. Several other synthetic direct inhibitors of FXa (such as FXV673, YM60828, KFA-1411) are in a pre-clinical stage of research. From a clinical point of view, the results of recent trials with the synthetic specific FXa inhibitors clearly show that the inhibition of FXa is a critical point in the antithrombotic strategy.

Towards a standardization of thrombin generation assessment: the influence of tissue factor, platelets and phospholipids concentration on the normal values of Thrombogram-Thrombinoscope assay.

BACKGROUND: Thrombin generation assay was developed several years ago to mimic physiological coagulation mechanisms but it had important limitations. Thrombogram-Thrombinoscope assay using a fluorogenic substrate, allows obtaining thrombin generation curves in non-defibrinated platelet rich plasma (PRP) in a fully automated manner. METHODS: We standardised the methodology of Thrombogram-Thrombinoscope and we evaluated the precision of thrombin generation parameters (lag-time, maximum concentration of thrombin [Cmax], time required to reach Cmax [Tmax] and endogenous thrombin potential ETP) using different concentrations of recombinant human tissue factor, platelets or phospholipids. Normal values of thrombin generation assay were established in optimal experimental conditions. RESULTS: In the presence of low TF concentrations (final dilution of thromboplastin in plasma: 1/1000-1/2000) the Thrombogram assay showed intra-assay and inter-assay coefficients of variation lower than 9%. Thrombin generation parameters showed an important inter-individual variability and the coefficients of variation ranged from 18% to 50%. In PRP the lag-time, Cmax and Tmax but not the ETP, were influenced by TF concentration. Thrombin generation parameters were not influenced by variations of platelet concentration from 50 x 10(9)/l to 400 x 10(9)/l. The addition of synthetic procoagulant phospholipids in PPP strongly influenced all the parameters of thrombogram. For all the parameters of thrombogram a threshold effect was observed in the presence of phospholipid concentrations equal or higher to 4 microM. In frozen-thawed PRP the lag-time and the Tmax were significantly reduced and the Cmax was increased compared to the fresh PRP, but the ETP, the intra assay and the inter-assay coefficients of variation were similar in both test-systems. CONCLUSION: Thrombogram-Thrombinoscope assay performed in fresh or in frozen-thawed PRP has an acceptable precision, with low inter-assay and intra-assay coefficient of variations. The concentration of TF is determinant for the normal values of the studied parameters of thrombin generation. When the assay is performed in PPP, thrombin generation parameters are influenced by the concentration of procoagulant synthetic phospholipids. The optimal experimental conditions were obtained in the presence of 1/1000 final dilution of thromboplastin, a platelet count higher than 50 x 10(9)/l and a synthetic phospholipid concentration higher than 4 microM.

In vitro comparison of the effect of fondaparinux and enoxaparin on whole blood tissue factor-triggered thromboelastography profile.

Fondaparinux and enoxaparin are both effective and safe in preventing post-operative venous thromboembolism. However, neither of them significantly influence the conventional clotting tests. We compared the influence of clinically relevant concentrations of fondaparinux and enoxaparin on normal whole blood (WB) thromboelastographic profiles after triggering TF-pathway with minimal amount of thromboplastin. Diluted thromboplastin was added to WB samples supplemented with buffer (control), fondaparinux (0.25; 0.5; 1 microg/ml), or enoxaparin (0.1; 0.5; 1 anti-Xa IU/ml). Four parameters were analyzed, R: clotting time, K: time required to reach an amplitude of 20 mm, alpha angle: measurement reflecting clot development kinetics and MA: maximal amplitude. At concentrations used in prophylaxis, both enoxaparin (0.1 anti-Xa IU/ml) and fondaparinux (0.25 microg/ml which correspond to 0.27 anti-Xa IU/ml) significantly prolonged the R and K times, but did not significantly modify the alpha angle as compared to the control. At concentrations observed after administration of curative doses for the treatment of DVT (> or = 0.5 anti-Xa IU/ml for enoxaparin and > or = 0.5 microg/ml for fondaparinux) both drugs induced a significant increase of R and K times, and a significant decrease of the alpha angle (p < 0.05). In contrast to fondaparinux, enoxaparin at concentrations equal to or higher than 0.5 anti-Xa IU/ml significantly reduced MA. The present study provides evidence that the whole blood TF-triggered TEG assay is sensitive to the presence of clinically relevant concentrations of enoxaparin or fondaparinux. Moreover, the angle may be used in order to distinguish the effect of prophylactic and therapeutic concentrations, since it was significantly reduced by the later ones. Further studies are needed to evaluate the clinical usefulness of whole blood TF-triggered TEG assay for the monitoring of treatment with enoxaparin or fondaparinux.

New anticoagulant drugs: the Seventh ACCP Conference on Antithrombotic and Thrombolytic Therapy.

This article about new anticoagulant drugs is part of the seventh American College of Chest Physicians Conference on Antithrombotic and Thrombolytic Therapy: Evidence-Based Guidelines. The limitations of existing oral and parenteral anticoagulant agents have prompted a search for novel agents. Focusing on new anticoagulant drugs for the prevention and treatment of arterial and venous thrombosis, this article (1) reviews arterial and venous thrombogenesis, (2) discusses the regulation of coagulation, (3) describes the pathways for testing new anticoagulant agents, (4) describes new anticoagulant strategies focusing primarily on agents in phase II or III clinical testing, and (5) provides clinical perspective as to which of these new strategies is most likely to succeed.