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Genetic information personalizes warfarin prescribing
February 19, 2009MADISON - Warfarin, one of the world's most widely used drugs, is also one of the trickiest to prescribe. Half of those who take it are at risk of serious problems when given the standard starting dose.
Now, in one of the first illustrations of "personalized medicine" based on genetic information, an international research team has created a model to help doctors determine the best dose of the blood-thinning drug for each patient.
Three University of Wisconsin-Madison researchers were involved in the work.
The model, based on data from thousands of patients treated with warfarin, showed that when doctors included information on patients' genetic make-up and other clinical factors in their decision-making, they did a much better job of predicting the appropriate dose.
The study and an accompanying editorial supporting the research appear in Thursday's (Feb. 19, 2009) New England Journal of Medicine.
David Page, professor of biostatistics and medical informatics at the UW School of Medicine and Public Health (SMPH) in Madison, was in charge of overseeing the data analysis on the project, undertaken by the International Warfarin Pharmacogenetics Consortium.
The statistical achievement is one of the first to show the potential of personalized medicine. In this new field, also called pharmacogenetics, physicians look at each patient's genetic make-up to predict how he or she will respond to specific drugs, what doses may be ideal, and if and when treatment should begin.
Gov. Jim Doyle last summer created the Wisconsin Genomics Initiative - a collaborative that brings together the SMPH, Marshfield Clinic, the Medical College of Wisconsin and UW-Milwaukee - to advance personalized medicine in the Badger State. Page also plays a key role in the initiative.
Warfarin was developed at UW-Madison and patented by WARF in the 1940s. Millions of patients take the anti-coagulant to prevent life-threatening blood clots that can cause heart attacks, strokes and death. But if the dose isn't right, dangerous bleeding can occur.
Arriving at the right dose is a big clinical challenge. Ideal dosages vary greatly from patient to patient, depending on factors such as age, gender, weight and other medications taken. Recently, clinicians identified two genes, CYP2C9 and VCORC1, that also affect warfarin tolerance, but nobody was sure about the exact role these genes play.
Physicians usually start patients on a dose of five milligrams per day.
"For about 50 percent of the population, this dose works fine," says Page. But for the other 50 percent or so, serious problems can arise when patients take levels that are either too high or too low.
In the study, researchers collected a variety of models used or suggested by the clinicians at the participating institutions to determine warfarin doses.
"The goal of each model is to look at several variables and say, depending on the weight of each variable and the combination of them all, which dose a patient should get," explains Page, an expert on a modeling approach called machine learning.
Researchers tested the performance of 14 models by comparing them to patient outcomes. They found that two models-an older technique called linear regression and a newer one called support vector regression-were equally successful when a combination of clinical information and genetic data was included.
"We found that incorporating a richer set of clinical variables significantly improved dosing," Page says. "Adding genetic information improved the predictions even more."
And while the model worked very well for patients on the standard five milligrams per day, it worked even better for the other half-those who could either bleed or clot excessively.
In the end, the researchers chose the linear regression model, with eight variables, as the best.
"Clinicians voiced a strong preference for it because it's much easier to understand and use than the support vector regression model," says Page, noting that the program is easily accessed in a spreadsheet or by means of a computer program.
Physicians will soon test the model in a major clinical trial to be sponsored by the National Institutes of Health.
Page says the study is a perfect example of the kinds of studies that will be undertaken through the Wisconsin Genomics Initiative, which has a built-in, large-scale genetic database.
"We hope to do similar studies for hundreds of medications and diseases," he says.
University of Wisconsin-Madison
The model, based on data from thousands of patients treated with warfarin, showed that when doctors included information on patients' genetic make-up and other clinical factors in their decision-making, they did a much better job of predicting the appropriate dose.
The study and an accompanying editorial supporting the research appear in Thursday's (Feb. 19, 2009) New England Journal of Medicine.
David Page, professor of biostatistics and medical informatics at the UW School of Medicine and Public Health (SMPH) in Madison, was in charge of overseeing the data analysis on the project, undertaken by the International Warfarin Pharmacogenetics Consortium.
The statistical achievement is one of the first to show the potential of personalized medicine. In this new field, also called pharmacogenetics, physicians look at each patient's genetic make-up to predict how he or she will respond to specific drugs, what doses may be ideal, and if and when treatment should begin.
Gov. Jim Doyle last summer created the Wisconsin Genomics Initiative - a collaborative that brings together the SMPH, Marshfield Clinic, the Medical College of Wisconsin and UW-Milwaukee - to advance personalized medicine in the Badger State. Page also plays a key role in the initiative.
Warfarin was developed at UW-Madison and patented by WARF in the 1940s. Millions of patients take the anti-coagulant to prevent life-threatening blood clots that can cause heart attacks, strokes and death. But if the dose isn't right, dangerous bleeding can occur.
Arriving at the right dose is a big clinical challenge. Ideal dosages vary greatly from patient to patient, depending on factors such as age, gender, weight and other medications taken. Recently, clinicians identified two genes, CYP2C9 and VCORC1, that also affect warfarin tolerance, but nobody was sure about the exact role these genes play.
Physicians usually start patients on a dose of five milligrams per day.
"For about 50 percent of the population, this dose works fine," says Page. But for the other 50 percent or so, serious problems can arise when patients take levels that are either too high or too low.
In the study, researchers collected a variety of models used or suggested by the clinicians at the participating institutions to determine warfarin doses.
"The goal of each model is to look at several variables and say, depending on the weight of each variable and the combination of them all, which dose a patient should get," explains Page, an expert on a modeling approach called machine learning.
Researchers tested the performance of 14 models by comparing them to patient outcomes. They found that two models-an older technique called linear regression and a newer one called support vector regression-were equally successful when a combination of clinical information and genetic data was included.
"We found that incorporating a richer set of clinical variables significantly improved dosing," Page says. "Adding genetic information improved the predictions even more."
And while the model worked very well for patients on the standard five milligrams per day, it worked even better for the other half-those who could either bleed or clot excessively.
In the end, the researchers chose the linear regression model, with eight variables, as the best.
"Clinicians voiced a strong preference for it because it's much easier to understand and use than the support vector regression model," says Page, noting that the program is easily accessed in a spreadsheet or by means of a computer program.
Physicians will soon test the model in a major clinical trial to be sponsored by the National Institutes of Health.
Page says the study is a perfect example of the kinds of studies that will be undertaken through the Wisconsin Genomics Initiative, which has a built-in, large-scale genetic database.
"We hope to do similar studies for hundreds of medications and diseases," he says.
University of Wisconsin-Madison
Warfarin Current Events and Warfarin News RSSNew blood-thinning drug safer than rat poison
In an article reviewed by F1000 Medicine Faculty Members Robert Ruff, Brian Olshansky and Luis Ruilope, the blood-thinner dabigatran is shown to protect against stroke, blood clotting and major bleeding as effectively as warfarin, but with fewer side effects.
Dabigatran vs. warfarin as long-term anticoagulant therapy in atrial fibrillation
The anticoagulant dabigatran is more effective than warfarin in the prevention of stroke in patients with atrial fibrillation, according to results from the RE-LY study (Randomized Evaluation of Long-term anticoagulant therapY).
Monash researchers lead the way in blood clotting discovery
A Monash-led research team has discovered an entirely new mechanism that promotes blood clot formation - a major breakthrough that will impact on treatment and prevention of heart disease and stroke.
More patients needed in clinical trials to find treatment for heart condition linked to certain strokes
The American Heart Association and the American College of Cardiology are calling on doctors to enroll more patients in clinical trials for catheter-based closure of patent foramen ovale (PFO), a condition caused when an opening between the two chambers of the heart fails to close at birth.
Is it reasonable to perform polypectomy without interruption of anticoagulation?
Currently, patients taking anticoagulants to prevent stroke and blood clots are often recommended to stop these medications in order to perform colonoscopy with removal of polyps.
Right warfarin dose determined by 3 genes
Researchers at Uppsala University, together with colleagues at the Karolinska Institute and the Sanger Institute, have now found all the genes the determine the dosage of the blood-thinning drug warfarin. The findings are published in the scientific journal PLoS Genetics.
Mutant rats offer clues to medical mystery
A research project at Rice University has brought scientists to the brink of comprehending a long-standing medical mystery that may link cardiovascular disease, osteoporosis and perhaps even Alzheimer's disease.
Mutant rats resist warfarin
A new series of mutations have been discovered that allow rats to resist the effects of the popular poison warfarin. Research published in the open access journal BMC Genetics describes eighteen new genetic changes found in rats from four continents.
Genetic testing not cost-effective in guiding initial dosing of common blood thinner
New analyses led by the University of Cincinnati (UC) show that genetic testing used to guide initial dosing of the blood-thinner warfarin may not be cost-effective for typical patients with atrial fibrillation but may be for patients at higher risk for major bleeding.
Study shows optimal dose management of warfarin improves anticoagulation control
Researchers from Boston University School of Medicine (BUSM) have determined the optimal dose-management strategy to derive maximal benefit from warfarin therapy and improve patient outcomes. Results of the study appear online in the December 2008 issue of the Journal of Thrombosis and Haemostasis.
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