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Oh, brother! NASA twins study shows how
space changes the human body
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 [April 12, 2019]
By Joey Roulette
COLORADO SPRINGS, Colo. (Reuters) - An
American astronaut experienced multiple biological changes in space but
returned to normal - with some exceptions - after coming back to Earth,
according to a study involving twin brothers that shed light on how
space flight affects the human body.
In research published on Thursday, scientists compared Scott Kelly to
identical twin Mark Kelly after Scott spent 340 days in orbit on the
International Space Station and Mark remained Earth-bound. Both are now
retired as NASA astronauts, and Mark is running for a U.S. Senate seat
in Arizona.
Scott Kelly during the flight experienced thickening of the carotid
artery and retina, weight loss, shifts in gut microbes, reductions in
cognitive abilities, DNA damage, changes in gene expression, and a
lengthening of the ends of chromosomes called telomeres, scientists
said.
After returning home, the telomere elongation was replaced by
accelerated shortening and loss, a potentially negative consequence for
cellular health, they said.
"The return was much worse than the adaptation of getting up there,
especially for the year flight," Kelly told reporters on Thursday. "I
felt like I had the flu after the first few days. I was tired for really
long time."
The study will help scientists better understand the changes astronauts
undergo during long-term space travel, crucial knowledge as NASA
contemplates human expeditions to the Moon and Mars.
Scientists noted changes in the expression of Scott Kelly's genes while
in space, with most - but not all - returning to normal after six months
back on Earth. A small percentage related to the immune system and DNA
repair failed to return to normal, however, indicating potential lasting
damage at the genetic level.
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NASA astronaut Scott Kelly (R), member of the 43 International Space
Station crew, and his twin brother Mark pose after a news conference
at Baikonur cosmodrome March 26, 2015. REUTERS/Maxim Zmeyev
Researchers identified five possible causes for the genetic changes,
including space radiation and the weightlessness of a zero-gravity
environment. The space station where Scott Kelly lived orbits below
the Van Allen radiation belt, a shell of energetic charged particles
built up outside Earth's protective magnetic field.
"Radiation is much lower than what we expect it to be going to
Mars," said Steven Platts, deputy chief scientist at NASA's Human
Research Program.
Scott Kelly's immune system worked fine in space and a flu vaccine
administered in orbit performed just as it would on Earth, the study
found. NASA called a strong immune system critical for lengthy space
missions to safeguard astronauts from disease-causing microbes in
the spacecraft environment.
Dr. Andrew Feinberg of Johns Hopkins University, who helped lead the
study published in the journal Science, noted that publication of
the findings coincides with the 58th anniversary of the first human
space flight, by Soviet cosmonaut Yuri Gagarin. Feinberg called the
study "the dawn of human genomics in space."
Researchers are planning another years-long study to build on
Thursday's results. "Put me in coach, I'm ready to go," Scott Kelly
joked.
(Reporting by Joey Roulette; Editing by Will Dunham)
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