Ximelagatran

Last updated
Ximelagatran
Ximelagatran.svg
Clinical data
Trade names Exanta
Pregnancy
category
  • Uncategorized
Routes of
administration 		Oral (tablets)
ATC code
Legal status
Legal status
  • Withdrawn from market
Pharmacokinetic data
Bioavailability 20%
Metabolism to melagatran
Elimination half-life 3–5 hours
Excretion Renal (80%)
Identifiers
  • ethyl 2-[[(1R)-1-cyclohexyl-2-
    [(2S)-2-[[4-(N'-hydroxycarbamimidoyl)
    phenyl]methylcarbamoyl]azetidin-1-yl]-
    2-oxo-ethyl]amino]acetate
CAS Number
PubChem CID
IUPHAR/BPS
DrugBank
ChemSpider
UNII
KEGG
ChEMBL
CompTox Dashboard (EPA)
Chemical and physical data
Formula C24H35N5O5
Molar mass 473.574 g·mol−1(429 g/mol after conversion)
3D model (JSmol)
  • O=C(NCc1ccc(C(=N\O)\N)cc1)[C@H]3N(C(=O)[C@H](NCC(=O)OCC)C2CCCCC2)CC3
  • InChI=1S/C24H35N5O5/c1-2-34-20(30)15-26-21(17-6-4-3-5-7-17)24(32)29-13-12-19(29)23(31)27-14-16-8-10-18(11-9-16)22(25)28-33/h8-11,17,19,21,26,33H,2-7,12-15H2,1H3,(H2,25,28)(H,27,31)/t19-,21+/m0/s1 Yes check.svgY
  • Key:ZXIBCJHYVWYIKI-PZJWPPBQSA-N Yes check.svgY
 X mark.svgNYes check.svgY  (what is this?)    (verify)

Ximelagatran (Exanta or Exarta, H 376/95) is an anticoagulant that has been investigated extensively as a replacement for warfarin [1] that would overcome the problematic dietary, drug interaction, and monitoring issues associated with warfarin therapy. In 2006, its manufacturer AstraZeneca announced that it would withdraw pending applications for marketing approval after reports of hepatotoxicity (liver damage) during trials, and discontinue its distribution in countries where the drug had been approved (Germany, Portugal, Sweden, Finland, Norway, Iceland, Austria, Denmark, France, Switzerland, Argentina and Brazil). [2]

Contents

Method of action

Ximelagatran, a direct thrombin inhibitor, [3] was the first member of this class that can be taken orally. It acts solely by inhibiting the actions of thrombin. It is taken orally twice daily, and rapidly absorbed by the small intestine. Ximelagatran is a prodrug, being converted in vivo to the active agent melagatran. This conversion takes place in the liver and many other tissues through hydrolysis and dehydroxylation (replacing the ethyl and hydroxyl groups with hydrogen).

The conversion of ximelagatran to melagatran. This conversion includes dealkylation and dehydroxylation. Ximelagatran activation.svg
The conversion of ximelagatran to melagatran. This conversion includes dealkylation and dehydroxylation.

Uses

Ximelagatran was expected to replace warfarin and sometimes aspirin and heparin in many therapeutic settings, including deep venous thrombosis, prevention of secondary venous thromboembolism and complications of atrial fibrillation such as stroke. The efficacy of ximelagatran for these indications had been well documented, [4] [5] [6] except for non valvular atrial fibrillation.

An advantage, according to early reports by its manufacturer, was that it could be taken orally without any monitoring of its anticoagulant properties. This would have set it apart from warfarin and heparin, which require monitoring of the international normalized ratio (INR) and the partial thromboplastin time (PTT), respectively. A disadvantage recognised early was the absence of an antidote in case acute bleeding develops, while warfarin can be antagonised by prothrombin complex concentrate and/or vitamin K and heparin by protamine sulfate.

Side effects

Ximelagatran was generally well tolerated in the trial populations, but a small proportion (5–6%) developed elevated liver enzyme levels, which prompted the FDA to reject an initial application for approval in 2004. The further development was discontinued in 2006 following reports of hepatotoxicity. Subsequent analysis of Phase 2 clinical study data using extreme value modelling showed that the elevated liver enzyme levels observed in Phase 3 clinical studies could have been predicted; if this had been known at the time, it might have affected decisions on future development of the compound. [7]

A chemically different but pharmacologically similar substance, AZD-0837, was developed by AstraZeneca for similar indications. [2] It is a prodrug of a potent, competitive, reversible inhibitor of free and fibrin-bound thrombin called ARH0637. [8] The development of AZD-0837 has been discontinued. Due to a limitation identified in long-term stability of the extended-release AZD-0837 drug product, a follow-up study from ASSURE on stroke prevention in patients with non-valvular atrial fibrillation, was prematurely closed in 2010 after 2 years. There was also a numerically higher mortality against warfarin. [9] [10] [11] In a Phase 2 trial for AF the mean serum creatinine concentration increased by about 10% from baseline in patients treated with AZD-0837, which returned to baseline after cessation of therapy. [12]

Related Research Articles

<span class="mw-page-title-main">Anticoagulant</span> Class of drugs

Anticoagulants, commonly known as blood thinners, are chemical substances that prevent or reduce coagulation of blood, prolonging the clotting time. Some of them occur naturally in blood-eating animals such as leeches and mosquitoes, where they help keep the bite area unclotted long enough for the animal to obtain some blood. As a class of medications, anticoagulants are used in therapy for thrombotic disorders. Oral anticoagulants (OACs) are taken by many people in pill or tablet form, and various intravenous anticoagulant dosage forms are used in hospitals. Some anticoagulants are used in medical equipment, such as sample tubes, blood transfusion bags, heart–lung machines, and dialysis equipment. One of the first anticoagulants, warfarin, was initially approved as a rodenticide.

<span class="mw-page-title-main">Thrombosis</span> Medical condition caused by blood clots

Thrombosis is the formation of a blood clot inside a blood vessel, obstructing the flow of blood through the circulatory system. When a blood vessel is injured, the body uses platelets (thrombocytes) and fibrin to form a blood clot to prevent blood loss. Even when a blood vessel is not injured, blood clots may form in the body under certain conditions. A clot, or a piece of the clot, that breaks free and begins to travel around the body is known as an embolus.

<span class="mw-page-title-main">Venous thrombosis</span> Blood clot (thrombus) that forms within a vein

Venous thrombosis is the blockage of a vein caused by a thrombus. A common form of venous thrombosis is deep vein thrombosis (DVT), when a blood clot forms in the deep veins. If a thrombus breaks off (embolizes) and flows to the lungs to lodge there, it becomes a pulmonary embolism (PE), a blood clot in the lungs. The conditions of DVT only, DVT with PE, and PE only, are all captured by the term venous thromboembolism (VTE).

<span class="mw-page-title-main">Warfarin</span> Medication

Warfarin is an anticoagulant used as a medication under several brand names including Coumadin. While the drug is described as a "blood thinner", it does not reduce viscosity but rather inhibits coagulation. Accordingly, it is commonly used to prevent blood clots in the circulatory system such as deep vein thrombosis and pulmonary embolism, and to protect against stroke in people who have atrial fibrillation, valvular heart disease, or artificial heart valves. Less commonly, it is used following ST-segment elevation myocardial infarction and orthopedic surgery. It is usually taken by mouth, but may also be administered intravenously.

<span class="mw-page-title-main">Rivaroxaban</span> Anticoagulant drug

Rivaroxaban, sold under the brand name Xarelto among others, is an anticoagulant medication used to treat and prevent blood clots. Specifically it is used to treat deep vein thrombosis and pulmonary emboli and prevent blood clots in atrial fibrillation and following hip or knee surgery. It is taken by mouth.

<span class="mw-page-title-main">Dalteparin sodium</span> Pharmaceutical drug

Dalteparin is a low molecular weight heparin. It is marketed as Fragmin. Like other low molecular weight heparins, dalteparin is used for prophylaxis or treatment of deep vein thrombosis and pulmonary embolism to reduce the risk of a stroke or heart attack. Dalteparin acts by potentiating the activity of antithrombin III, inhibiting formation of both Factor Xa and thrombin. It is normally administered by self-injection.

<span class="mw-page-title-main">Dabigatran</span> Anticoagulant medication

Dabigatran, sold under the brand name Pradaxa among others, is an anticoagulant used to treat and prevent blood clots and to prevent stroke in people with atrial fibrillation. Specifically it is used to prevent blood clots following hip or knee replacement and in those with a history of prior clots. It is used as an alternative to warfarin and does not require monitoring by blood tests. In a meta analysis of 7 different studies, there was no benefit of dabigatran over warfarin in preventing ischemic stroke; however, dabigatran were associated with a lower hazard for intracranial bleeding compared with warfarin, but also had a higher risk of gastrointestinal bleeding relative to warfarin. It is taken by mouth.

Direct thrombin inhibitors (DTIs) are a class of medication that act as anticoagulants by directly inhibiting the enzyme thrombin. Some are in clinical use, while others are undergoing clinical development. Several members of the class are expected to replace heparin and warfarin in various clinical scenarios.

Antithrombin III deficiency is a deficiency of antithrombin III. This deficiency may be inherited or acquired. It is a rare hereditary disorder that generally comes to light when a patient suffers recurrent venous thrombosis and pulmonary embolism, and repetitive intrauterine fetal death (IUFD). Hereditary antithrombin deficiency results in a state of increased coagulation which may lead to venous thrombosis. Inheritance is usually autosomal dominant, though a few recessive cases have been noted. The disorder was first described by Egeberg in 1965. The causes of acquired antithrombin deficiency are easier to find than the hereditary deficiency.

Hypercoagulability in pregnancy is the propensity of pregnant women to develop thrombosis. Pregnancy itself is a factor of hypercoagulability, as a physiologically adaptive mechanism to prevent post partum bleeding. However, when combined with an additional underlying hypercoagulable states, the risk of thrombosis or embolism may become substantial.

<span class="mw-page-title-main">Idraparinux</span> Chemical compound

Idraparinux sodium is an anticoagulant medication in development by Sanofi-Aventis.

Direct factor Xa inhibitors (xabans) are anticoagulants, used to both treat and prevent blood clots in veins, and prevent stroke and embolism in people with atrial fibrillation (AF).

<span class="mw-page-title-main">Vitamin K antagonist</span>

Vitamin K antagonists (VKA) are a group of substances that reduce blood clotting by reducing the action of vitamin K. The term "vitamin K antagonist" is technically a misnomer, as the drugs do not directly antagonize the action of vitamin K in the pharmacological sense, but rather the recycling of vitamin K. Vitamin K antagonists (VKAs) have been the mainstay of anticoagulation therapy for more than 50 years.

<span class="mw-page-title-main">Left atrial appendage occlusion</span> Medical treatment

Left atrial appendage occlusion (LAAO), also referred to as left atrial appendage closure (LAAC), is a procedure used to reduce the risk of blood clots from the left atrial appendage entering the bloodstream and causing a stroke in those with non-valvular atrial fibrillation.

The management of atrial fibrillation (AF) is focused on preventing temporary circulatory instability, stroke and other ischemic events. Control of heart rate and rhythm are principally used to achieve the former, while anticoagulation may be employed to decrease the risk of stroke. Within the context of stroke, the discipline may be referred to as stroke prevention in atrial fibrillation (SPAF). In emergencies, when circulatory collapse is imminent due to uncontrolled rapid heart rate, immediate cardioversion may be indicated.

<span class="mw-page-title-main">Edoxaban</span> Anticoagulant drug

Edoxaban, sold under the brand name Lixiana among others, is an anticoagulant medication and a direct factor Xa inhibitor. It is taken by mouth.

<span class="mw-page-title-main">Betrixaban</span> Chemical compound

Betrixaban is an oral anticoagulant drug which acts as a direct factor Xa inhibitor. Betrixaban is FDA approved for venous thrombosis prevention in adults hospitalized for an acute illness who are at risk for thromboembolic complications. Compared to other directly acting oral anticoagulants betrixaban has relatively low renal excretion and is not metabolized by CYP3A4.

<span class="mw-page-title-main">Apixaban</span> Anticoagulant medication

Apixaban, sold under the brand name Eliquis, is an anticoagulant medication used to treat and prevent blood clots and to prevent stroke in people with nonvalvular atrial fibrillation through directly inhibiting factor Xa. Specifically, it is used to prevent blood clots following hip or knee replacement and in those with a history of prior clots. It is used as an alternative to warfarin and does not require monitoring by blood tests or dietary restrictions. It is taken by mouth.

<span class="mw-page-title-main">Darexaban</span> Chemical compound

Darexaban (YM150) is a direct inhibitor of factor Xa created by Astellas Pharma. It is an experimental drug that acts as an anticoagulant and antithrombotic to prevent venous thromboembolism after a major orthopaedic surgery, stroke in patients with atrial fibrillation and possibly ischemic events in acute coronary syndrome. It is used in form of the maleate. The development of darexaban was discontinued in September 2011.

Direct thrombin inhibitors (DTIs) are a class of anticoagulant drugs that can be used to prevent and treat embolisms and blood clots caused by various diseases. They inhibit thrombin, a serine protease which affects the coagulation cascade in many ways. DTIs have undergone rapid development since the 90's. With technological advances in genetic engineering the production of recombinant hirudin was made possible which opened the door to this new group of drugs. Before the use of DTIs the therapy and prophylaxis for anticoagulation had stayed the same for over 50 years with the use of heparin derivatives and warfarin which have some well known disadvantages. DTIs are still under development, but the research focus has shifted towards factor Xa inhibitors, or even dual thrombin and fXa inhibitors that have a broader mechanism of action by both inhibiting factor IIa (thrombin) and Xa. A recent review of patents and literature on thrombin inhibitors has demonstrated that the development of allosteric and multi-mechanism inhibitors might lead the way to a safer anticoagulant.

References

  1. Hirsh J, O'Donnell M, Eikelboom JW (July 2007). "Beyond unfractionated heparin and warfarin: current and future advances". Circulation. 116 (5): 552–560. doi: 10.1161/CIRCULATIONAHA.106.685974 . PMID   17664384.
  2. 1 2 "AstraZeneca Decides to Withdraw Exanta" (Press release). AstraZeneca. February 14, 2006. Retrieved 2012-07-16.
  3. Ho SJ, Brighton TA (2006). "Ximelagatran: direct thrombin inhibitor". Vascular Health and Risk Management. 2 (1): 49–58. doi: 10.2147/vhrm.2006.2.1.49 . PMC   1993972 . PMID   17319469.
  4. Eriksson H, Wåhlander K, Gustafsson D, Welin LT, Frison L, Schulman S, et al. (THRIVE Investigators) (January 2003). "A randomized, controlled, dose-guiding study of the oral direct thrombin inhibitor ximelagatran compared with standard therapy for the treatment of acute deep vein thrombosis: THRIVE I". Journal of Thrombosis and Haemostasis. 1 (1): 41–47. doi: 10.1046/j.1538-7836.2003.00034.x . PMID   12871538. S2CID   20556829.
  5. Francis CW, Berkowitz SD, Comp PC, Lieberman JR, Ginsberg JS, Paiement G, et al. (October 2003). "Comparison of ximelagatran with warfarin for the prevention of venous thromboembolism after total knee replacement". The New England Journal of Medicine. 349 (18): 1703–1712. doi: 10.1056/NEJMoa035162 . PMID   14585938. S2CID   26026547.
  6. Schulman S, Wåhlander K, Lundström T, Clason SB, Eriksson H (October 2003). "Secondary prevention of venous thromboembolism with the oral direct thrombin inhibitor ximelagatran". The New England Journal of Medicine. 349 (18): 1713–1721. doi: 10.1056/NEJMoa030104 . PMID   14585939.
  7. Southworth H (July 2014). "Predicting potential liver toxicity from phase 2 data: a case study with ximelagatran". Statistics in Medicine. 33 (17): 2914–2923. doi:10.1002/sim.6142. PMID   24623062. S2CID   36324117.
  8. Ahrens I, Peter K, Lip GY, Bode C (June 2012). "Development and clinical applications of novel oral anticoagulants. Part II. Drugs under clinical investigation". Discovery Medicine. 13 (73): 445–450. PMID   22742650.
  9. "AZD0837". Astrazenecaclinicaltrials.com. Retrieved 2012-10-16.
  10. "Long-term treatment with the oral direct thrombin inhibitor AZD0837, compared to Vitamin-K antagonists, as stroke prevention in patients with non-valvular atrial fibrillation and one or more risk factors for stroke and systemic embolic events. A 5-year follow-up study study". Clinical Study Report Synopsis. AstraZeneca. 21 January 2010. Trial D1250C0004221. Archived from the original on 10 November 2013.
  11. Eikelboom JW, Weitz JI (April 2010). "New anticoagulants". Circulation. 121 (13): 1523–1532. doi: 10.1161/CIRCULATIONAHA.109.853119 . PMID   20368532.
  12. Lip GY, Rasmussen LH, Olsson SB, Jensen EC, Persson AL, Eriksson U, Wåhlander KF (December 2009). "Oral direct thrombin inhibitor AZD0837 for the prevention of stroke and systemic embolism in patients with non-valvular atrial fibrillation: a randomized dose-guiding, safety, and tolerability study of four doses of AZD0837 vs. vitamin K antagonists". European Heart Journal. 30 (23): 2897–2907. doi:10.1093/eurheartj/ehp318. PMC   2785945 . PMID   19690349.
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