Anticoagulant: Difference between revisions

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==Direct thrombin inhibitors==
==Direct thrombin inhibitors==
Direct thrombin inhibitors bind directly to thrombin.<ref name="pmid16148288">{{cite journal |author=Di Nisio M, Middeldorp S, Büller HR |title=Direct thrombin inhibitors |journal=N. Engl. J. Med. |volume=353 |issue=10 |pages=1028–40 |year=2005 |pmid=16148288 |doi=10.1056/NEJMra044440|url=http://content.nejm.org/cgi/content/full/353/10/1028}}</ref>
* [[Argatroban]] is for treating [[heparin-induced thrombocytopenia]] (HIT)
* [[Bivalirudin]] is a recombinant protein
* [[Dabigatran]]
* [[Desirudin]]
* [[Hirudin]] is a recombinant protein for treating [[heparin-induced thrombocytopenia]] (HIT)
* [[Lepirudin]]
* [[Ximelagatran]] is a recombinant protein that is an oral direct thrombin inhibitor


==Factor Xa inhibitors==
==Factor Xa inhibitors==

Revision as of 00:11, 5 December 2007

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Vitamin K antagonists

Warfarin

Pharmacogenomics

Warfarin activity is determined partially by genetic factors. The American Food and Drug Administration "highlights the opportunity for healthcare providers to use genetic tests to improve their initial estimate of what is a reasonable warfarin dose for individual patients" .[1]

VKORC1

Polymorphisms in the vitamin K epoxide reductase complex 1 (VKORC1) gene explain 30% of the dose variation between patients[2]: particular mutations make VKORC1 less susceptible to suppression by warfarin[3] There are a main haplotypes that explain 25% of variation: low-dose haplotype group (A) and a high-dose haplotype group (B).[4] For the three combinations of the haplotypes, the mean daily maintenance dose of warfarin was:

  • A/A: 2.7+/-0.2 mg
  • A/B: 4.9+/-0.2 mg
  • B/B: 6.2+/-0.3 mg

VKORC1 polymorphisms also explain why African Americans are relatively resistant to warfarin (higher proportion of group B haplotypes), while Asian Americans are more sensitive (higher proportion of group A haplotypes).[4]

CYP2C9

CYP2C9 is an isozyme of cytochrome P450. Polymorphisms of CYP2C9 explain another 10% of variation in warfarin dosing[2], mainly among Caucasian patients as these variants are rare in African American and most Asian populations.[5] A meta-analysis of mainly Caucasian patients found[5]:

  • CYP2C9*2 allele:
    • present in 12.2% of patients
    • mean reduction was in warfarin dose was 0.85 mg (17% reduction)
    • relative bleeding risk was 1.91
  • CYP2C9*3 allele:
    • present in 7.9% of patients
    • mean reduction was in warfarin dose was 1.92 mg (37% reduction)
    • relative bleeding risk was 1.77

Dosage

Loading regimens

Because of warfarin's poorly-predictable pharmacokinetics, several researchers have proposed algorithms for commencing warfarin treatment:

  • The Kovacs 10 mg algorithm was better than a 5 mg algorithm.[6]
  • The Fennerty 10 mg regimen is for urgent anticoagulation[7]
  • The Tait 5 mg regimen is for "routine" (low-risk) anticoagulation (summary)[8]
  • From a cohort of orthopedic patients, Millican et al derived an 8-value model, including CYP29C and VKORC1 genotype results, that could predict 80% of the variation in warfarin doses. It is awaiting validation in larger populations and has not been reproduced in those who require warfarin for other indications.[9]
Adjusting the maintenance dose

Recommendations by the American College of Chest Physicians[10] have been distilled to help manage dose adjustments.[11]

Interactions and contraindications

Some foodstuffs have also been reported to interact with warfarin.[12]

Adverse effects

Patients aged 80 years or more may be especially susceptible to bleeding complications with a rate of 13 bleeds per 100 person-years.[13]

Antagonism and reversal

Details on reversing warfarin are provided in clinical practice guidelines from the American College of Chest Physicians.[10] For patients with an international normalized ratio (INR) between 4.5 and 10.0, 1 mg of oral vitamin K is effective.[14]

Heparin

Details of the usage of heparin are available in clinical practice guidelines by the American College of Chest Physicians[15]:

Direct thrombin inhibitors

Direct thrombin inhibitors bind directly to thrombin.[16]

Factor Xa inhibitors

Idraparinux is a synthetic derivative of heparin that has a long half life that allows once-weekly dosage. A randomized controlled trial compared idraparinux to warfarin and found that idraparinux is equivalent for deep venous thrombosis but is inferior for pulmonary embolism.[17]

References

  1. FDA Approves Updated Warfarin (Coumadin) Prescribing Information. Retrieved on 2007-08-20.
  2. 2.0 2.1 Wadelius M, Chen LY, Downes K, et al (2005). "Common VKORC1 and GGCX polymorphisms associated with warfarin dose". Pharmacogenomics J. 5 (4): 262-70. DOI:10.1038/sj.tpj.6500313. PMID 15883587. Research Blogging.
  3. Cite error: Invalid <ref> tag; no text was provided for refs named pmid14765194
  4. 4.0 4.1 Rieder MJ, Reiner AP, Gage BF, et al (2005). "Effect of VKORC1 haplotypes on transcriptional regulation and warfarin dose". N. Engl. J. Med. 352 (22): 2285-93. DOI:10.1056/NEJMoa044503. PMID 15930419. Research Blogging.
  5. 5.0 5.1 Sanderson S, Emery J, Higgins J (2005). "CYP2C9 gene variants, drug dose, and bleeding risk in warfarin-treated patients: a HuGEnet systematic review and meta-analysis". Genet. Med. 7 (2): 97-104. PMID 15714076[e]
  6. Kovacs MJ, Rodger M, Anderson DR, et al (2003). "Comparison of 10-mg and 5-mg warfarin initiation nomograms together with low-molecular-weight heparin for outpatient treatment of acute venous thromboembolism. A randomized, double-blind, controlled trial". Ann. Intern. Med. 138 (9): 714-9. PMID 12729425[e] (summary of 10 mg algorithm)
  7. Fennerty A, Campbell IA, Routledge PA (1988). "Anticoagulants in venous thromboembolism". BMJ 297 (6659): 1285-8. PMID 3144365[e]
  8. Tait RC, Sefcick A (1998). "A warfarin induction regimen for out-patient anticoagulation in patients with atrial fibrillation". Br. J. Haematol. 101 (3): 450-4. DOI:10.1046/j.1365-2141.1998.00716.x. PMID 9633885. Research Blogging.
  9. Millican E, Jacobsen-Lenzini PA, Milligan PE, et al (2007). "Genetic-based dosing in orthopaedic patients beginning warfarin therapy" 110 (5): 1511-5. DOI:10.1182/blood-2007-01-069609. PMID 17387222. Research Blogging. Online tool based on the study.
  10. 10.0 10.1 Ansell J, Hirsh J, Poller L, Bussey H, Jacobson A, Hylek E (2004). "The pharmacology and management of the vitamin K antagonists: the Seventh ACCP Conference on Antithrombotic and Thrombolytic Therapy". Chest 126 (3 Suppl): 204S-233S. DOI:10.1378/chest.126.3_suppl.204S. PMID 15383473. Research Blogging. (summary)
  11. Point-of-Care Guides - May 15, 2005 - American Family Physician. Retrieved on 2007-08-20.
  12. Holbrook AM, Pereira JA, Labiris R, et al (2005). "Systematic overview of warfarin and its drug and food interactions". Arch. Intern. Med. 165 (10): 1095–106. DOI:10.1001/archinte.165.10.1095. PMID 15911722. Research Blogging.
  13. Hylek EM, Evans-Molina C, Shea C, Henault LE, Regan S (2007). "Major hemorrhage and tolerability of warfarin in the first year of therapy among elderly patients with atrial fibrillation". Circulation 115 (21): 2689-96. DOI:10.1161/CIRCULATIONAHA.106.653048. PMID 17515465. Research Blogging. PMID 17515465
  14. Crowther MA, Douketis JD, Schnurr T, et al (2002). "Oral vitamin K lowers the international normalized ratio more rapidly than subcutaneous vitamin K in the treatment of warfarin-associated coagulopathy. A randomized, controlled trial". Ann. Intern. Med. 137 (4): 251-4. PMID 12186515[e]
  15. Hirsh J, Raschke R (2004). "Heparin and low-molecular-weight heparin: the Seventh ACCP Conference on Antithrombotic and Thrombolytic Therapy". Chest 126 (3 Suppl): 188S-203S. DOI:10.1378/chest.126.3_suppl.188S. PMID 15383472. Research Blogging.
  16. Di Nisio M, Middeldorp S, Büller HR (2005). "Direct thrombin inhibitors". N. Engl. J. Med. 353 (10): 1028–40. DOI:10.1056/NEJMra044440. PMID 16148288. Research Blogging.
  17. Buller HR, Cohen AT, Davidson B, et al (2007). "Idraparinux versus standard therapy for venous thromboembolic disease". N. Engl. J. Med. 357 (11): 1094–104. DOI:10.1056/NEJMoa064247. PMID 17855670. Research Blogging.

See also

External links

The Seventh ACCP Conference on Antithrombotic and Thrombolytic Therapy: Evidence-Based Guidelines

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