New research suggests that venturing beyond Earth’s protective atmosphere could damage astronauts gastrointestinal tracts, after other studies showed the harm it causes to astronauts’ eyes, muscles, hearts and immune systems.
Deep space travel has been shown to harm astronauts’ eyes, muscles, hearts and immune systems. Now, new animal research suggests that venturing beyond Earth’s protective atmosphere could also damage their gastrointestinal tracts.
“We have documented the effects of deep space radiation on some vital organs, but we believe that similar damage responses may occur in many organs,” explained senior investigator Dr Kamal Datta.
He is a project leader of the NASA Specialized Center of Research (NSCOR) at Georgetown University Medical Center in Washington, D.C.
“It is important to understand these effects in advance so we can do everything we can to protect our future space travelers,” Datta said in a Georgetown news release.
In the study, Datta’s team exposed mice to a low dose of iron radiation at the NASA Space Radiation Laboratory (NSRL) in Brookhaven National Laboratory in New York. The mice received a very low dose over the equivalent of a months-long stay in deep space. The rodents were then examined at Georgetown.
From observing the iron radiation mice, the researchers said they found the constant bombardment by galactic cosmic radiation in deep space could cause significant damage to gastrointestinal tissue, such as the stomach and intestines. This damage, they warned, could lead to long-term health issues and increase the risk for cancers of the stomach and colon.
Another group of mice was exposed to gamma rays, which are comparable to X-rays on Earth. These two groups of mice were then compared to a third group that had no radiation exposure.
“Heavy ions such as iron and silicon are damaging because of their greater mass compared to no-mass photons such as X-rays and gamma rays prevalent on Earth,” Datta said.
The researchers found that these intestinal cells did not absorb enough nutrients and they formed cancerous polyps. The researchers also found evidence that iron radiation triggered DNA damage that increased the number of cells that were incapable of normal cell division.
“They generate oxidative stress and inflammatory molecules that induce more damage. said Datta, who is also a member of Georgetown Lombardi Comprehensive Cancer Center.
The effects of the iron radiation appeared to be permanent, the study showed, though research on animals frequently doesn’t lead to the same results in humans.
The findings were published October 1 in the Proceedings of the National Academy of Sciences.
“With the current shielding technology, it is difficult to protect astronauts from the adverse effects of heavy ion radiation. Although there may be a way to use medicines to counter these effects, no such agent has been developed yet,” Datta said.
“While short trips, like the times astronauts traveled to the moon, may not expose them to this level of damage, the real concern is lasting injury from a long trip such as [to] Mars or other deep space missions, which would be much longer,” he added.