Suni Williams (left) and Butch Wilmore
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(by Diana Bruk, NY Post) – US astronauts Butch Wilmore and Suni Williams — who have been stranded at the International Space Station for nine months for what was supposed to be a 10-day trip — are finally earthbound.
You don’t have to be a rocket scientist to realize that spending the better part of a year in outer space might have an impact on your health, but what kinds of changes can the NASA pair expect to their bodies — and could they face any long-term repercussions?
Nine months is certainly not the longest an astronaut has been in space, but Wilmore and Williams can surely expect to experience some differences, from their height to their bone density to their eyeballs.
Height
One of the more surprising effects of microgravity is that astronauts grow taller in space — sometimes by as much as two inches. Without the constant downward pull of gravity, the spinal discs expand, increasing overall height.
However, this change is temporary.
Once back on Earth, the spine compresses again, which typically returns the astronaut to their usual height. Astronaut Scott Kelly lost the nearly two inches of height that he gained during his record-breaking 340-day stay on the International Space Station after just two days back Earth-side.
Bones
Extended time in space leads to significant bone density loss.
Without the usual stress of gravity, bones — especially in weight-bearing areas like the hips and legs — begin to lose minerals, making them weaker.
According to NASA, astronauts lose between 1% and 1.5% of bone density in these areas per month while in space.
Bone density loss — also known as osteoporosis —can lead to several health complications, including increased risk of fracture and falling, reduced mobility and chronic back pain.
Muscles
Muscle atrophy is another common issue in space missions. Shenhav Shemer, a professor of biology at the Technion — Israel Institute of Technology, told Axios that muscles are likely to get progressively weaker the longer the astronaut is in space.
She added that women are generally at greater risk for both atrophy and bone loss because they naturally have less muscle mass and testosterone and may experience other hormonal changes in zero gravity — which means Wilmore and Wilson may be impacted differently.
According to NASA, astronauts have to exercise at least two hours per day on a treadmill or stationary bike to avoid the bone and muscle loss.
“Without this exercise, they would be unable to walk or stand up when they return to Earth after months of floating in space,” they wrote.
Vision
Many astronauts return to Earth with vision problems due to Spaceflight-Associated Neuro-ocular Syndrome (SANS).
While the exact cause is still being researched by scientists, one theory is that the lack of gravity alters fluid distribution in the body, leading to increased pressure on the optic nerve and changes in eye shape — eyeballs can become flattened and the optic nerve may swell, leading to reduced vision and impaired blood flow in the retina.
“Brain structural changes appear small but seem to indicate that over half of crewmembers experience one or more symptoms of SANS,” NASA wrote.
While some of these problems can persist for years, no crew member has reported significant or permanent vision loss following a mission so far.
Hearts
Because it doesn’t have to work as hard to pump blood against gravity, the heart can become slightly smaller and less efficient in microgravity.
This can lead to low blood pressure and dizziness when astronauts first return to Earth.
Research suggests this effect is temporary and some studies show astronauts generally have better cardiovascular health than the general population on Earth.
Balance
Microgravity affects the vestibular system, the inner ear structures responsible for balance.
After months of floating, astronauts may need to adjust to the shock of gravity, and feel wobbly and disoriented as a result — a phenomenon known as “space legs.”
Cancer risk
Astronauts are exposed to more radiation outside of the Earth’s protective atmosphere, thereby increasing their overall risk of cancer.
Wearing a dosimeter and other protective measures can help mitigate this risk, which NASA aims to keep no higher than 3% more than the general population.
‘The little things’
With everything that we do know, there are still things you can’t predict.
“The big things you expect, right? Being disoriented. Being dizzy,” Matthew Dominick said at a press conference after spending a lengthy stay aboard the ISS. “But the little things, like just sitting in a hard chair, right? My backside has not really sat in a hard thing for 235 days.”
“Everyone’s different. And that’s the part that you can’t predict,” Jeanette Epps, a fellow astronaut on the same mission, said.
“One issue Matt may have I may not have, but I may have several things that he doesn’t have. And so, and we did different experiments on board. So we don’t know how we’re going to respond when we, when we return and how fast. And every day is better than the day before.”
Published at NYPost .com on March 18. Reprinted here for educational purposes only. May not be reproduced on other websites without permission.
Questions
NOTE: Before answering the questions, read the “Background” and watch the videos under “Resources.”
1. Define microgravity.
2. a) Why do astronauts grow taller in apace?
b) Why is the height change temporary?
3. a) What is bone density?
b) How much bone density do astronauts lose during extended time in space?
4. a) Define muscle atrophy.
b) What do astronauts do to mitigate – and even prevent – bone and muscle loss?
5. Why are men and women impacted differently from extended time in space?
6. a) What is SANS?
b) What is the good news about this syndrome?
7. The 2 astronauts were supposed to be on an 8 day mission that turned into 9 months. Elon Musk had offered to send a SpaceX Dragon to retrieve them months ago, but the Biden administration declined.
In an interview after the SpaceX Dragon successfully returned the astronauts to earth, Musk said: “”SpaceX could have brought the astronauts back after a few months at most, and we made that offer to the Biden administration. It was rejected for political reasons, and that’s just a fact.” He also said, “The astronauts were only supposed to be there for eight days, and they’ve been there for almost ten months. So, obviously, that doesn’t make any sense.”
In a February interview with CNN’s Anderson Cooper, Butch Wilmore said:
“We don’t feel abandoned. We don’t feel stuck. We don’t feel stranded. I understand why others may think that. We come prepared. We come committed. That is what your human spaceflight program is. It prepares for any and all contingencies that we can conceive of, and we prepare for those. So if you’ll help us change the rhetoric, help us change the narrative, let’s change it to ‘prepared and committed.’ That’s what we prefer.”
What do you think of Mr. Wilmore’s comments to CNN?
8. A roundtrip mission to Mars, including travel time and time spent on the surface, could take roughly 3 years. A one-way trip would take about 9 months. If you had the opportunity, would you travel to Mars? Explain your answer.
Background
From a Grok AI search “explain why suni and butch astronauts were stranded in space for almost a year”:
Suni Williams and Butch Wilmore, two NASA astronauts, ended up spending nearly a year in space due to technical issues with the Boeing Starliner spacecraft that originally took them to the International Space Station (ISS). Here’s how it unfolded:
The duo launched on June 5, 2024, aboard the [Boeing] Starliner for what was intended to be an eight-day mission as part of Boeing’s first crewed test flight under NASA’s Commercial Crew Program. The goal was to certify the Starliner as a reliable vehicle for transporting astronauts to and from the ISS, alongside [Elon Musk’s] SpaceX’s Crew Dragon. However, problems emerged during the flight to the ISS. Shortly after launch, the astronauts reported a helium leak in the spacecraft’s propulsion system, which is critical for maneuvering. While they managed to dock safely with the ISS on June 6, additional issues surfaced: four more helium leaks developed, and five of the Boeing Starliner’s 28 thrusters malfunctioned during the rendezvous. Although four thrusters were later restored, these setbacks raised serious safety concerns about the spacecraft’s ability to bring the astronauts back to Earth.
NASA and Boeing spent weeks analyzing the problems, focusing on the thruster failures and helium leaks. By August 2024, after extensive ground testing and data review, NASA concluded that the Starliner was too risky for a crewed return. The agency decided to send the spacecraft back to Earth uncrewed, which it did successfully on September 6, 2024, landing in New Mexico. This left Williams and Wilmore on the ISS with no immediate way home, effectively extending their mission far beyond the planned week.
Rather than organizing a special rescue mission, NASA [under President Joe Biden] opted to integrate the astronauts into the ISS’s regular crew rotation schedule. This decision was driven by practicality and cost considerations, as launching a dedicated SpaceX flight earlier would have been expensive—estimated at hundreds of millions of dollars—and would have only shaved a couple of months off their stay*. Instead, they joined the Expedition 71 crew, contributing to scientific experiments, maintenance, and spacewalks while awaiting the next scheduled crew rotation. [*if you were one of the 2, would you want to be rescued a couple months earlier?]
Their ride home came with the SpaceX Crew-9 mission, which launched on September 28, 2024, carrying NASA astronaut Nick Hague and Russian cosmonaut Aleksandr Gorbunov to the ISS. This Dragon capsule, named “Freedom,” had two empty seats reserved for Williams and Wilmore. However, they couldn’t return immediately because the ISS needed a full crew complement for ongoing operations, and their departure required replacements. The Crew-10 mission, which would relieve them, faced delays due to technical issues with the SpaceX Falcon 9 rocket and weather setbacks, pushing its launch from February to March 14, 2025. Crew-10 finally docked on March 16, 2025, allowing Williams and Wilmore to board the Crew-9 Dragon capsule and depart the ISS on March 18, 2025. They splashed down off Florida’s Gulf Coast later that day, concluding a mission that lasted 286 days—over nine months—instead of the planned eight days.
…Williams and Wilmore, both experienced naval test pilots and veteran astronauts, were well-prepared for such contingencies, having trained for long-duration missions. They consistently downplayed the “stranded” narrative, emphasizing their readiness and the ISS’s robust support systems, which included stockpiled supplies and backup spacecraft like the Soyuz or Dragon for emergencies. Nonetheless, the situation highlighted reliability gaps in Boeing’s Starliner program, contrasting with SpaceX’s proven track record, and turned a routine test flight into a high-profile space odyssey.
Resources
Splashdown, March 18, 2025:
A CNN report, March 18, 2025:
A CBS News report, March 18, 2025:
Daily “Answers” emails are provided for Daily News Articles, Tuesday’s World Events and Friday’s News Quiz.
