Wanted: A million people willing to share their DNA and 10 years of health habits, big and small, for science.
On Sunday, the US government will open nationwide enrollment for an ambitious experiment: If they can build a large enough database comparing the genetics, lifestyles and environments of people from all walks of life, researchers hope to learn why some escape illness and others don't, and better customize ways to prevent and treat disease.
"A national adventure that is going to transform medical care," is how Dr. Francis Collins, director of the National Institutes of Health, describes his agency's All of Us Research Program.
Congress has authorised USD 1.45 billion over 10 years for the project. It all hinges on whether enough people around the country will sign up, either online or through participating health centers.
There's already interest: More than 25,000 people got early entry to the project over the past year through an invitation-only pilot test run by participating universities and health providers.
Most of today's medical care is one-size-fits-all, based on what happened to the average person in short studies of a few hundred or thousand patients with a specific health condition.
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And most people who volunteer for those studies are white, leaving questions about the best care for people of different races.
All of Us is part of a move toward "precision medicine," using traits that make us unique to forecast and treat disease. Learning enough to individualize care requires studying a massive number of participants: The healthy and not-so-healthy, young and old, rural and urban, blue-collar and white-collar - and people of all races and ethnicities.
For now, participants must be at least 18. Later, the study will open to children, too.
While there are other big "biobanks" of genetic data from at least 100,000 people, the NIH project aims to be the largest and most diverse of its kind. At least half of the participants must be from groups traditionally under-represented in medical research, Collins stressed.
Sure, what genes you harbor can raise your risk for various diseases. But other factors can increase or reduce some genetic risks.
So first volunteers will share their electronic health records, and answer periodic questionnaires about their diet, sleep, environmental exposures and other lifestyle factors. They might wear fitness trackers and other sensors.
And they'll give a blood sample that later this year will undergo genetic testing, initially to look for so-called "variants" in DNA that affect disease risk, similar to what some private companies now sell, Collins said. Fully mapping the genetic code is too pricey now for a million people, but that more comprehensive approach eventually will be used with some participants, too.
Among the first lessons Collins hopes to learn is about resilience: Why do some people stay healthy despite smoking or pollution or poor nutrition? "We have no idea how those people escape those odds," he said.