Anticoagulation is advised for patients who have had a blood clot or who are at increased risk of blood clots because of atrial fibrillation, artificial heart valves, or other conditions. Over 30 million prescriptions are written every year in the US for the anticoagulant warfarin, best known under the brand name Coumadin. Originally developed as a rat poison, warfarin has proved very effective in preventing blood clots and saving lives; but too much anticoagulation leads to the opposite problem: bleeding. A high level of Coumadin might prevent a stroke from a blood clot only to cause a stroke from an intracranial bleed. The effect varies from person to person and from day to day depending on things like the amount of vitamin K in the diet and interactions with other medications. It requires careful monitoring with blood tests, and it is tricky because there is a delay between changing the dose and seeing the results.
In his book The Language of Life, Francis Collins predicts that Coumadin will be the first drug for which the so-called Dx-Rx paradigm — a genetic test (Dx) followed by a prescription (Rx) — will enter mainstream medical practice. FDA economists have estimated that by formally integrating genetic testing into routine warfarin therapy, the US alone would avoid 85,000 serious bleeding events and 17,000 strokes annually.
A recent news release from the American College of Cardiology described a paper at their annual meeting reporting a study of
896 people who, shortly after beginning warfarin therapy, gave a blood sample or cheek swab that was analyzed for expression of two genes — CYP2C9 and VKORC1 — that revealed sensitivity to warfarin. People with high sensitivity were put on a reduced dose of warfarin and had frequent blood tests. People with low sensitivity were given a higher dose of warfarin.
During the first six months that they took warfarin, those who underwent genetic testing were 31 percent less likely to be hospitalized for any reason and 29 percent less likely to be hospitalized for bleeding or thromboembolism than were a group that did not have genetic testing.
Epstein said that the cost of the genetic testing — $250 to $400 — would be justified by reduced hospitalization costs.
At this point, I don’t believe this study. I’ll explain why I’m skeptical. (more…)
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