 |
| Sequencing in newborns can prevent disease and lead to scientific breakthroughs later in life. WSJ's Amy Dockser Marcus discusses with Tanya Rivero. Photo: Children's Mercy Kansas City |
Genome Sequencing in Babies to Begin as Part of Study
by Amy Dockser Marcus,
Wall Street Journal,
by Amy Dockser Marcus,
Wall Street Journal,
29 December 2014
Read more »
A Genetic Blueprint to Carry Through Life and Help Develop Personalized Treatments
Doctors expect soon to begin sequencing the genomes of healthy newborn babies as part of a government-funded research program that could have wide implications for genetic science.
The research, to be conducted at major hospitals around the country, stems from a growing recognition that genome sequencing could someday be part of routine testing done on every baby. Such testing could provide doctors and parents a vast pool of data likely to reveal a wider range of potential medical risks than the traditional heel-prick test, in which a small sample of newborns’ blood is taken to check for more than two dozen possible conditions.
Genome sequencing of infants also someday could provide people with a genetic blueprint to carry through life. The data could be used years later to help develop personalized medical treatment, such as choosing the most effective asthma medication.
“We are entering an era where all of medicine is genomic medicine,’’ says Robert C. Green, a geneticist and researcher at Brigham and Women’s Hospital in Boston, which is participating in the research program. “In the next five to 10 years, as costs come down and interpretation is more established, it will increasingly be to everyone’s advantage to have sequencing information integrated into their care,” he says.
Doctors expect soon to begin sequencing the genomes of healthy newborn babies as part of a government-funded research program that could have wide implications for genetic science.
The research, to be conducted at major hospitals around the country, stems from a growing recognition that genome sequencing could someday be part of routine testing done on every baby. Such testing could provide doctors and parents a vast pool of data likely to reveal a wider range of potential medical risks than the traditional heel-prick test, in which a small sample of newborns’ blood is taken to check for more than two dozen possible conditions.
Genome sequencing of infants also someday could provide people with a genetic blueprint to carry through life. The data could be used years later to help develop personalized medical treatment, such as choosing the most effective asthma medication.
“We are entering an era where all of medicine is genomic medicine,’’ says Robert C. Green, a geneticist and researcher at Brigham and Women’s Hospital in Boston, which is participating in the research program. “In the next five to 10 years, as costs come down and interpretation is more established, it will increasingly be to everyone’s advantage to have sequencing information integrated into their care,” he says.