Rob Stein

Rob Stein is a correspondent and senior editor on NPR's science desk.

An award-winning science journalist with more than 25 years of experience, Stein mostly covers health and medicine. He tends to focus on stories that illustrate the intersection of science, health, politics, social trends, ethics, and federal science policy. He tracks genetics, stem cells, cancer research, women's health issues and other science, medical, and health policy news.

Before NPR, Stein worked at The Washington Post for 16 years, first as the newspaper's science editor and then as a national health reporter. Earlier in his career, Stein spent about four years as an editor at NPR's science desk. Before that, he was a science reporter for United Press International (UPI) in Boston and the science editor of the international wire service in Washington.

Stein is a graduate of the University of Massachusetts, Amherst. He completed a journalism fellowship at the Harvard School of Public Health, a program in science and religion at the University of Cambridge, and a summer science writer's workshop at the Marine Biological Laboratory in Woods Hole, Mass.

Stein's work has been honored by many organizations, including the National Academy of Sciences, the American Association for the Advancement of Science and the Association of Health Care Journalists.

Lindsey McFarland was born without a uterus. So she and her husband, Blake, created their family by adopting three boys. But they always dreamed that she could somehow become pregnant and give birth to a baby.

"We just wanted that experience," Lindsey says. "We wanted that connection."

She longed to feel a baby kick and develop inside her. She wanted the thrill of discovering the sex of the fetus during a routine sonogram. She even wanted to go through morning sickness and labor.

Copyright 2016 NPR. To see more, visit http://www.npr.org/.

Copyright 2016 NPR. To see more, visit http://www.npr.org/.

Scientists have been able to make and study human embryos in their labs for decades. But they have never been able to keep them alive outside a woman's womb for more than about a week.

That limitation meant scientists were unable to conduct a range of detailed research into early human development.

But now researchers say they have discovered a way to keep human embryos alive in the laboratory about a week longer than ever before, and through a critical period of development.

Catherine Osbourne/For NPR

It's just before dawn in Piracicaba, a small city in southeastern Brazil, when a large white van pulls over to the side of the road. The door slides open, revealing stacks of crates jammed with plastic pots. Each pot is buzzing with mosquitoes.

"There's about 1,000 mosquitoes in each of those pots," says Guilherme Trivelato, who works for Oxitec, a biotech company that owns the van. All together, there are more than 300,000 mosquitoes swarming inside those pots.

"That's how many we're going to release today," he says.

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