Traveling to Mars Could Cause Life-Threatening Damage to Astronauts’ Guts, Says Study | Tech Top
According to a new NASA-funded study conducted by researchers at Georgetown University Medical Center, exposure to galactic cosmic radiation during a trip to Mars could leave astronauts with permanent and potentially deadly damage to their gastrointestinal tissue.
On Earth and in its orbit, people and animals are protected from certain types of cosmic radiation by the planet’s magnetic field. For their study, published Monday in the Proceedings of the National Academy of Sciences, the researchers attempted to simulate the conditions found in deep space by blasting 10 male mice with doses of heavy ion radiation — the equivalent, they said, of what a human astronaut would be exposed to on a deep space journey that lasted several months.
The researchers then euthanized the mice and studied samples of their intestinal tissue. They found that the guts of irradiated mice hadn’t been absorbing nutrients properly, and had formed cancerous polyps. Even worse, the damage appears to be permanent — mice killed and dissected after a year still hadn’t recovered.
A GIANT LEAP
The findings are alarming because we don’t yet have a way to protect astronauts from cosmic radiation.
“With the current shielding technology, it is difficult to protect astronauts from the adverse effects of heavy ion radiation,” said researcher Kamal Datta in a press release. “Although there may be a way to use medicines to counter these effects, no such agent has been developed yet,”
Of course, mice aren’t the same as humans, so the actual effect of radiation on astronauts is still largely unknown. However, if we ever hope to send humans to Mars and beyond, nailing down the effects of deep space on astronaut health will need to be a top priority.
READ MORE: Animal Study Suggests Deep Space Travel May Significantly Damage GI Function in Astronauts [Georgetown University]
More on astronaut health: Traveling to Mars Will Blast Astronauts With Deadly Cosmic Radiation, New Data Shows