Atrial Fibrillation Clinical Trial
Official title:
Randomized Controlled Trial of Genotype-Guided Dosing of Warfarin Therapy
The purpose of the investigators' study is to determine the clinical utility of a warfarin-dosing algorithm that incorporates genetic information (VKORC1 and CYP2C9 alleles) for adult patients initiating warfarin therapy.
Almost 20 million prescriptions are written for warfarin each year in the US and yet it is
one of the most problematic drugs in the modern medical formulary. Warfarin has a narrow
therapeutic window and the hemorrhagic or thrombotic implications of modest over- or
under-dosing can be devastating. Warfarin is one of the leading causes of emergency
department visits and hospitalizations due to adverse drug events worldwide. Adverse events
from warfarin are more common during the initial months of treatment before the optimal dose
is determined. Moreover, there is substantial individual variation in response to warfarin
necessitating frequent monitoring and dosage adjustments. The monitoring and dosing of
warfarin is so problematic that many primary care physicians have abdicated this role to
specialized "warfarin clinics" which are devoted solely to following patients on this agent.
Unfortunately, no good alternatives to warfarin exist for the common indications requiring
chronic anticoagulation such as atrial fibrillation, deep vein thrombosis, pulmonary
embolism, and artificial heart valves.
Pharmacogenomics offers substantial hope for improved care of patients taking warfarin. One
group estimated that formally integrating genetic testing into routine warfarin therapy in
the US could result in the avoidance of 85,000 serious bleeding events and 17,000 strokes
annually with a cost savings of over $1 billion annually. Common single nucleotide
polymorphisms (SNPs) in the gene encoding Vitamin K Epoxide Reductase (VKOR) substantially
affect one's sensitivity to warfarin, mediating a doubling or halving of the dose required
for optimal anticoagulation. Warfarin inhibits clotting by inhibiting the enzyme VKOR, and
thus inhibiting vitamin K dependent clotting factors. A number of recent retrospective
studies have shown that polymorphisms in the VKOR gene may account for 20-30% of the
variance in warfarin dose seen in patients on stable, long-term warfarin therapy.
Another genetic determinant of variance in warfarin dose is the cytochrome p450 2C9 enzyme
CYP2C9. It is almost wholly responsible for metabolism of the more active S-enantiomer of
warfarin. The 2C9*2 and 2C9*3 polymorphisms in the CYP2C9 gene are associated with reduced
warfarin metabolism, and a number of retrospective studies have shown that these
polymorphisms may account for 10-15% of the variance in warfarin dosage in patients on
stable, long-term warfarin therapy. In addition, the variant CYP2C9 alleles have been
associated with longer times to stabilization of INR and a higher risk for bleeding events.
These polymorphisms are seen in ~20-30% of the Caucasian population, but are rare in African
Americans and Asians. Together, known VKOR and CYP2C9 variants may account for 40% of the
variability in warfarin dosing.
By combining clinical information such as weight, height, and concomitant medications with
VKOR and CYP2C9 genotypic information, several algorithms have been devised that calculate
warfarin doses. These algorithms have been shown to accurately predict warfarin doses in
retrospective studies of patients already on long-term stable warfarin doses. Some small,
pilot studies in orthopedic patients suggest that prospective genetic-based dosing is
feasible and may result in achieving stable doses sooner in patients with certain genetic
variants. However, the prospective studies are small, pilot studies limited to orthopedic
patients that did not include medical patients with common indications requiring chronic
oral anticoagulation. They are also limited by study designs that include only historical
controls. No RCTs have been reported in the literature and further evaluation is needed to
determine the utility and cost-effectiveness of genetic-based algorithms. The NHLBI is
planning a double-blind, randomized three-arm trial, but the trial will not begin enrolling
subjects until 2008 at the earliest and data analysis and dissemination is planned to begin
beyond 2011.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver), Primary Purpose: Treatment
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