The Future of Anticoagulation

Debra A. Hoppensteadt; Walter Jeske; Jeanine Walenga; Jawed Fareed; null Hemostasis and Thrombosis Research Laboratories Loyola University Chicago

doi:10.1055/s-2008-1047567

Seminars in Respiratory and Critical Care Medicine, Table of Contents

Semin Respir Crit Care Med 2008; 29(1): 090-099
DOI: 10.1055/s-2008-1047567

The Future of Anticoagulation

Debra A. Hoppensteadt¹ , Walter Jeske² , Jeanine Walenga² , Jawed Fareed¹ , Hemostasis and Thrombosis Research Laboratories, Loyola University Chicago³

¹Department of Pathology, Loyola University Chicago, Maywood, Illinois
²Department of Thoracic and Cardiovascular Surgery, Loyola University Chicago, Maywood, Illinois
³Loyola University Medical Center, Maywood, Illinois

Abstract

ABSTRACT

The conventional management of thrombotic disorders is based on the use of heparin, oral anticoagulants, and aspirin. The development of low molecular weight heparins and the synthesis of heparinomimetics such as the chemically synthesized pentasaccharide represent a refined use of heparin. Aspirin still remains the lead drug in the management of thrombotic and cardiovascular disorders. The newer antiplatelet drugs such as the adenosine diphosphate receptor inhibitors, glycoprotein IIb/IIIa (GPIIb/IIIa) inhibitors and other specific inhibitors have limited effects and have been tested in patients who have already been treated with aspirin. The oral anticoagulants such as warfarin provide a convenient and affordable approach in the long-term outpatient management of thrombotic disorders. The optimized use of these drugs still remains the approach of choice to manage thrombotic disorders. The new anticoagulant drugs target specific sites in the hemostatic network. There is a major thrust on the development of orally bioavailable anticoagulant drugs to replace oral anticoagulants. Heparin and low molecular weight heparins have been considered with various chemical enhancers for absorption. Both the factor Xa and antithrombin agents have been developed for oral use and some of these agents are in clinical development. Besides the limited bioavailability, the therapeutic indices of some of these drugs have been rather disappointing. Factor Xa inhibitors such as the pentasaccharides have undergone aggressive clinical development. The newer antiplatelet drugs have added a new dimension in the management of thrombotic disorders. The newer drugs are attractive for several reasons; however, none of these are expected to completely replace the conventional drugs in polytherapeutic approaches. It is conceivable that some of the newer drugs in combined modalities may mimic the broad therapeutic spectrum of heparins and warfarin. However, clinical validation is required for the therapeutic interchange for specific indications.

KEYWORDS

Anticoagulation - deep vein thrombosis - anti-Xa agents - antithrombin agents - antiplatelet agents - combination therapy

Full Text

References

REFERENCES

1 Fareed J, Lewis B E, Callas D D et al.. Antithrombin agents: the new class of anticoagulant and antithrombin drug. Clin Appl Thromb Hemost. 1999; 5(Suppl 1) S45-S55
2 Fareed J, Haas S, Sasahara A. Differentiation of low molecular weight heparins: applied and clinical considerations. Semin Thromb Hemost. 1999; 25(Suppl 3) 1-47
3 Fareed J, Messmore H L. Clopidogrel, a new ADP receptor antagonist: clinical development. Semin Thromb Hemost.. 1999; 25(Suppl 2) 1-84
4 Fareed J, Walenga J M, Hoppensteadt D, Kaiser B, Jeske W. Factor Xa inhibitors in the control of thrombogenesis. Hämostaseologie. 1999; 19 55-62
5 Bick R L, Fareed J. Low molecular weight heparins: differences and similarities in approved preparations in the United States. Clin Appl Thromb Hemost. 1999; 5(Suppl 1) S63-S66
6 Fareed J, Hoppensteadt D. The management of thrombotic and cardiovascular disorders in the 21st century. In: Sasahara AA, Loscalzo J New Therapeutic Agents in Thrombosis and Thrombolysis. New York; Marcel Dekker 2005: 687-693
7 Albers G W, Amarenco P, Easton J D et al.. Antithrombotic and thrombolytic therapy for ischemic stroke: the seventh ACCP conference on antithrombotic and thrombolytic therapy. Chest. 2004; 126(Suppl 3) 483S-512S
8 Harrington R A, Becker R C, Ezekowitz M et al.. Antithrombotic therapy for coronary artery disease: the seventh ACCP conference on antithrombotic and thrombolytic therapy. Chest. 2004; 126(Suppl 3) 513S-548S
9 Popma J J, Berger P, Ohman E M et al.. Antithrombotic therapy during percutaneous coronary intervention: the seventh ACCP conference on antithrombotic and thrombolytic therapy. Chest. 2004; 126(Suppl 3) 576S-599S
10 Geerts W H, Pineo G F, Heit J A et al.. Prevention of venous thromboembolism: the seventh ACCP conference on antithrombotic and thrombolytic therapy. Chest. 2004; 126(Suppl 3) 338S-400S
11 Fenton J W. Regulation of thrombin generation and functions. Semin Thromb Hemost. 1988; 14 234-240
12 Di Nisio M, Middeldorp S, Buller H R. Direct thrombin inhibitors. N Engl J Med. 2005; 353 1028-1040
13 Saiah E, Soares C. Small molecule coagulation cascade inhibitors in the clinic. Curr Top Med Chem. 2005; 5 1677-1695
14 Lubenow N, Eichler P, Lietz T et al.. Lepirudin for prophylaxis of thrombosis in patients with acute isolated heparin-induced thrombocytopenia: an analysis of 3 prospective studies. Blood. 2004; 104 3072-3077
15 Lewis B E, Wallis D E, Berkowitz S D et al.. Argatroban anticoagulant therapy in patients with heparin-induced thrombocytopenia. Circulation. 2001; 103 1838-1843
16 Lewis B E, Wallis D E, Leya F et al.. Argatroban anticoagulation in patients with heparin-induced thrombocytopenia. Arch Intern Med. 2003; 163 1849-1856
17 Eriksson B I, Wille-Jorgensen P, Kalebo P et al.. A comparison of recombinant hirudin with low-molecular-weight heparin to prevent thromboembolic complications after total hip replacement. N Engl J Med. 1997; 337 1329-1335
18 Eriksson B I, Ekman S, Lindbratt S et al.. Prevention of thromboembolism with use of recombinant hirudin: results of a double blind, multicenter trial comparing the efficacy of desirudin (Revasc) with that of unfractionated heparin in patients having a total hip replacement. J Bone Joint Surg Am. 1997; 79 326-333
19 Carswell C I, Plosker G L. Bivalirudin: a review of its potential place in the management of acute coronary syndromes. Drugs. 2002; 62 841-870
20 Ahrens I, Smith B K, Bode C, Peter K. Direct thrombin inhibition with bivalirudin as an antithrombotic strategy in general and interventional cardiology. Expert Opin Drug Metab Toxicol. 2007; 3 609-620
21 Carswell C I, Plosker G L. Bivalirudin: a review of its potential place in the management of acute coronary syndromes. Drugs. 2002; 62 841-870
22 Dyke C M, Aldea G, Koster A et al.. Off-pump coronary artery bypass with bivalirudin for patients with heparin-induced thrombocytopenia or antiplatelet factor four/heparin antibodies. Ann Thorac Surg. 2007; 84 836-839
23 Pappalardo F, Franco A, Crescenzi G et al.. Successful use of bivalirudin for cardiopulmonary bypass in a patient with heparin allergy. Perfusion. 2007; 22 67-69
24 Leone G, Rossi E, Leone A M, De Stefano V. Novel antithrombotic agents: indirect synthetic inhibitors of factor Xa and direct thrombin inhibitors: evidences from clinical studies. Curr Med Chem Cardiovasc Hematol Agents. 2004; 2 311-326
25 Bauer K A. New anticoagulants. Hematology Am Soc Hematol Educ Program. 2006; 450-456
26 LaMonte M P, Nash M L, Wang D Z et al.. Argatroban anticoagulation in patients with acute ischemic stroke (ARGIS-1): a randomized, placebo-controlled safety study. Stroke. 2004; 35 1677-1682
27 Eriksson B I, Dahl O E, Buller H et al.. A new oral direct thrombin inhibitor, dabigatran etexilate, compared with enoxaparin for prevention of thromboembolic events following total hip or knee replacement: the BISTRO II randomized trial. J Thromb Haemost. 2005; 3 103-111
28 Samama M M, Walenga J, Kaiser B, Fareed J. Specific factor Xa inhibitors. In: Verstraete M, Fuster V, Topol E Cardiovascular Thrombosis: Thrombocardiology. Brussels; Lippincott-Raven 1997: 173-188
29 Weitz J I, Hirsh J. New antithronbotic agents. Chest. 2001; 119 95S-107S
30 Walenga J M, Jeske W P, Samama M M et al.. Fondaparinux: a synthetic heparin pentasaccharide as a new antithrombotic agent. Expert Opin Investig Drugs. 2002; 11 397-407
31 Lassen M R, Bauer K A, Eriksson B I et al.. Postoperative fondaparinux versus preoperative enoxaparin for the prevention of venous thromboembolism in elective hip-replacement surgery: a randomized double-blind comparison. Lancet. 2002; 359 1715-1720
32 Turpie A GG, Bauer K A, Erikkson B I et al.. Postoperative fondaparinux versus preoperative enoxaparin for the prevention of venous thromboembolism in elective hip-replacement surgery: a randomized double-blind comparison. Lancet. 2002; 359 1721-1726
33 Bauer K A, Eriksson B I, Lassen M R et al.. Fondaparinux compared with enoxaparin for the prevention of venous thromboembolism after elective major knee surgery. N Engl J Med. 2001; 345 1305-1310
34 Eriksson B I, Bauer K A, Lassen M R et al.. Fondaparinux compared with enoxaparin for the prevention of venous thromboembolism after hip-fracture surgery. N Engl J Med. 2001; 345 1298-1304
35 Buller H R, Davidson B L, Decousus H et al.. Fondaparinux or enoxaparin for the initial treatment of symptomatic deep venous thrombosis: a randomized trial. Ann Intern Med. 2004; 140 867-873
36 Buller H R, Davidson B L, Decousus H et al.. Subcutaneous fondaparinux versus intravenous unfractionated heparin in the initial treatment of pulmonary embolism. N Engl J Med. 2003; 349 1695-1702
37 Simoons M L, Bobbink I W, Boland J et al.. A dose-finding study of fondaparinux in patients with non-ST-segment elevation in acute coronary syndromes. The Pentasaccharide in Unstable Angina (PENTUA) Study. J Am Coll Cardiol. 2004; 43 2183-2190
38 Yusuf S, Mehta S R, Chrolavicius S et al.. Comparison of fondaparinux with enoxaparin in acute coronary syndromes. N Engl J Med. 2006; 354 1464-1476
39 Herbert J M, Heravlet J P, Bernat A et al.. Biochemical and pharmacologic properties of SanOrg 34006, a potent and long-acting synthetic pentasaccharide. Blood. 1998; 91 4197-4205
40 PERSIST Investigators . A novel, long-acting synthetic factor Xa inhibitor (SanOrg 34006) to replace warfarin for secondary prevention in deep vein thrombosis: a phase II evaluation. J Thromb Haemost. 2004; 2 47-53
41 Murayama T, Tanaka M, Kunitada S et al.. Tolerability, pharmacokinetics and pharmacodynamics of DX-9065a, a new synthetic potent anticoagulant and specific factor Xa inhibitor, in healthy male volunteers. Clin Pharmacol Ther. 1999; 66 258-264
42 Dyke C K, Becker R C, Kleiman N S et al.. First experience with direct factor Xa inhibition in patients with stable coronary disease: a pharmacokinetic and pharmacodynamic evaluation. Circulation. 2002; 105(20) 2385-2391
43 Turpie A G, Fisher W D, Bauer K A et al.. BAY 59-7939: an oral, direct factor Xa inhibitor for the prevention of venous thromboembolism in patients after total knee replacement: a phase II dose-ranging study. J Thromb Haemost. 2005; 3 2479-2486
44 Erikkson B I, Borris L, Dahl O E et al.. Oral, direct factor Xa inhibition with Bay 59-7939 for the prevention of venous thromboembolism after total hip replacement. J Thromb Haemost. 2006; 4 121-128
45 Lee W M, Larrey D, Olsson R et al.. Hepatic findings in long term clinical trials of ximelagatran. Drug Saf. 2005; 28 351-370

Debra A HoppensteadtPh.D.

Department of Pathology, Loyola University Chicago

2160 S. First Ave., Maywood, IL 60153

Email: dhoppen@lumc.edu