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Peek Into Your Genes: NASA One-Year Mission Investigators Identify Links to Vision Problems

Genes, Vitamins and Fluid Shifts May Impact Vision of Astronauts
  • <strong>Retired astronaut Scott Kelly opens a bag of assorted fruit (oranges, lemons, grapefruits) in the Node 2 module after being unpacked from the Kounotori H-II Transfer Vehicle 5 (HTV-5).</strong>
  • <strong>Retired astronaut Scott Kelly, wearing a Chibis Lower Body Negative Pressure (LBNP) Suit, undergoes ultrasound measurements for the Fluid Shifts experiment.</strong>

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    HOUSTON, TX, May 31, 2017 /24-7PressRelease/ -- Coinciding with May - Healthy Vision Month, NASA's One-Year Mission investigators are peering into their new findings to help address astronaut vision issues. While the One-Year Mission has concluded for retired astronaut Scott Kelly, NASA's Human Research Program is focusing on comparing previous six-month mission findings to One-Year Mission preliminary findings.

Nutritional Biochemistry Lab lead Scott M. Smith, Ph.D., takes a broad look at biochemistry. He studies the astronaut diets along with protein, vitamin, mineral, and other chemicals in blood and urine to look for indicators of disease or other physiological changes. His team discovered that astronauts with vision issues had biochemical differences before ever leaving Earth as compared to astronauts without vision issues, and subsequently documented that this was evidence of a genetic predisposition for some astronauts to develop vision and eye issues. He thinks his team is on the path to help resolve vision issues for astronauts. This is an important finding as NASA prepares for a human journey to Mars.

Typically, physiologists and scientists study one system at a time, but nutrition is a cross-cutting science with impacts across systems biology. Smith emphasizes the importance of studying the human body holistically, which is why his team has led the effort to create a biochemical database making it more efficient to interface with other researchers, such as the 22 other One-Year Mission investigators.

Another investigator who works with Smith at NASA's Johnson Space Center is Michael Stenger, Ph.D. He is the Cardiovascular and Vision Lab lead and principal investigator for the Fluid Shifts investigation, which is an international experiment designed to determine the relationship between headward fluid shifts and ocular structural changes. Spaceflight Associated Neuro-ocular Syndrome, or SANS, is hypothesized to be caused by blood flow toward the head due to lack of gravity, resulting in changes to eye structure and possibly vision changes. This headward fluid shift may be responsible for vision changes, flattening of the eyeball and swelling of some tissues in the back of the eye and engorgement of the optic nerve sheath seen in approximately one out of three International Space Station astronauts.

The One-Year Mission was a great opportunity to see if vision changes occurring during six-month missions continued and worsened when the mission is extended to a year. Stenger could also see if astronauts who did not have vision issues at the six-month mark, developed them when extended to one year in space. The preliminary findings are a bit of both. One subject developed SANS early in the mission and had some symptoms worsen as the mission lengthened while another did not. The subject who did not experience SANS symptoms during the first six months of flight did start to show some changes near the end of his year in space, suggesting that length of time in space may impact the eye.

Both Smith and Stenger are working together to solve eye and vision problems for astronauts. They agree their investigations are just scratching the surface and there is a lot of work that still needs to be done on the ground and in space to validate theories. While Scott Kelly returned to Earth in a healthy state, NASA continues to keep its vision focused on sending humans safely and effectively on a three-year journey to Mars.

NASA's Human Research Program (HRP) is dedicated to discovering the best methods and technologies to support safe, productive human space travel. HRP enables space exploration by reducing the risks to human health and performance using ground research facilities, the International Space Station, and analog environments. This leads to the development and delivery of a program focused on: human health, performance, and habitability standards; countermeasures and risk mitigation solutions; and advanced habitability and medical support technologies. HRP supports innovative, scientific human research by funding more than 300 research grants to respected universities, hospitals and NASA centers to over 200 researchers in more than 30 states.

Amy Blanchett
Laurie Abadie
NASA Human Research Engagement & Communications


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NASA Johnson Space Center

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