Astronauts sacrifice a lot to explore the mysteries of deep space and it’s well known that the zero gravity environment results in bone loss.
However, new research shows that astronauts who partake in spaceflights that last longer than three months can show signs of incomplete bone recovery even after a full year back on Earth.
‘The detrimental effect of spaceflight on skeletal tissue can be profound,’ states the opening line of the study published today in Scientific Reports.
‘We found that weight-bearing bones only partially recovered in most astronauts one year after spaceflight,’ Leigh Gabel, assistant professor in Kinesiology, and lead author of the study, says in a statement.
The impact of zero gravity on the bones of an astronaut can be ‘profound’ according to the study. Pictured above is astronaut Tom Marshburn after pinning the official flown NASA astronaut insignia on ESA (European Space Agency) astronaut Matthias Maurer after the Crew-3 Crew Dragon ‘Endurance’ successfully docked with the International Space Station
‘This suggests the permanent bone loss due to spaceflight is about the same as a decade worth of age-related bone loss on Earth.’
The study was started in 2017 and it followed 17 astronauts before and after spaceflight over seven years to determine how bone does or does not recover after longer spaceflights.
Researchers went to Johnson Space Center in Houston, Texas and scanned the wrists and ankles of the astronauts before they left for space.
One year after returning from long-duration spaceflight, most astronauts demonstrated incomplete recovery of bone density, strength, and trabecular thickness at the weight-bearing distal tibia.
Incomplete recovery of bone density and strength was more pronounced in astronauts who flew on longer duration missions, researchers found. Pictured above is the International Space Station as photographed by Expedition 56 crew members
When astronauts are floating in microgravity, their bones that would be weight-bearing on Earth don’t have to carry any weight.
‘Understanding what happens to astronauts and how they recover is incredibly rare. It lets us look at the processes happening in the body in such a short time frame. We would have to follow someone for decades on Earth to see the same amount of bone loss,’ Gabel explains.
Incomplete recovery of bone density and strength was more pronounced in astronauts who flew on longer duration missions, for whom bone loss after spaceflight was significantly higher than astronauts on shorter missions.
Researchers noted that astronauts all respond differently to the physical impacts of space travel.
All astronauts recover differently when it comes to the impact of zero gravity. Pictured above is the deployment of scientific experiments by Astronaut Edwin Aldrin Jr. is photographed by Astronaut Neil Armstrong during the Apollo 11 Moon mission.
‘We’ve seen astronauts who had trouble walking due to weakness and lack of balance after returning from spaceflight, to others who cheerfully road their bike on Johnson Space Center campus to meet us for a study visit,’ says Dr. Steven Body, director of the McCaig Institute for Bone and Joint Health and professor in the Cumming School of Medicine, who started the study.
As space travel enters a new era where long-duration missions may become more common, the study is planning to examine the impact of even lengthier trips in its next iteration.’
Astronaut Robert Thirsk knows how bizarre the return to Earth can be: ‘Just as the body must adapt to spaceflight at the start of a mission, it must also readapt back to Earth’s gravity field at the end,’ says Thirsk, the former UCalgary Chancellor.
WHEN DID NASA LAST LAUNCH CREWED MISSIONS FROM THE US?
Shuttle Columbia is shown during lift-off from the Kennedy Space Center in 2003
NASA launched its first space shuttle, Space Shuttle Columbia (STS-1), from the Kennedy Space Center on April 12, 1981.
In the three decades that followed, the space agency deployed a total of 135 missions from US soil.
Columbia was only the beginning; following in its footsteps, NASA launched Challenger, Discovery, Atlantis, and Endeavor to carry people to orbit.
These launches also allowed for the construction of the International Space Station – the largest structure in space, that’s now home to a revolving crew of astronauts from all around the world, conducting important experiments that continue to advance our knowledge of the cosmos.
The shuttle missions came to an end with the Atlantis shuttle on July 21, 2011 after STS-135.
In the years since, NASA has had to rely on Russian modules to send astronauts to the ISS, all of which launch from foreign soil.
Now, the space agency has turned to the private sector to provide space taxi services, to take astronauts from US soil to the ISS.
On August 3, 2018, NASA revealed astronauts would fly on the Boeing CST-100 Starliner and SpaceX Crew Dragon.
So far only SpaceX has successfully taken astronauts to the ISS, but it is hoped the first Starliner flight will happen in 2022.
The shuttle missions came to an end with the Atlantis shuttle on July 21, 2011 after STS-135. Above, Atlantis lands at the Kennedy Space Center at Cape Canaveral, Fl, marking the official end of the 30-year program
‘Fatigue, light-headedness, and imbalance were immediate challenges for me on my return. Bones and muscles take the longest to recover following spaceflight.
‘But within a day of landing, I felt comfortable again as an Earthling.’
The study team included two members from the European Space Agency (ESA), Dr. Anna-Maria Liphardt, and Martina Heer, as well as two from NASA, Dr. Scott Smith, and Dr. Jean Sibonga.
The study was funded by the Canadian Space Agency and conducted in partnership with ESA, NASA and astronauts from North America, Europe, and Asia.