Mars astronauts risk brain damage from cosmic rays

Humans who make the long voyage to Mars may end up with symptoms similar to dementia due to brain damage from their long-term exposure to the cosmic rays in space.

Cosmic ray-like radiation causes dementia-like cognitive impairments in mice

This computer-generated NASA view depicts part of Mars at the boundary between darkness and daylight. Researchers say long-term exposure to cosmic rays that permeate space may cause dementia-like cognitive impairments in astronauts during any future round-trip Mars trip. (JPL-Caltech/NASA/Reuters)

It may not be space debris, errant asteroids, supply shortages, thruster malfunctions or even the malevolent aliens envisioned in so many Hollywood films that thwart astronauts on any mission to Mars. It may be the ubiquitous galactic cosmic rays.

Researchers report that long-term exposure to these rays that permeate space may cause dementia-like cognitive impairments in astronauts during any future round-trip Mars journey, expected to take at least 2½ years.

In a NASA-funded study, mice exposed to highly energetic charged particles like those in galactic cosmic rays experienced declines in cognition and changes in the structure and integrity of brain nerve cells and the synapses where nerve impulses are sent and received.

The irradiated particles in galactic cosmic rays, remnants of star explosions called supernovas, can penetrate spacecraft and astronauts' bodies. Earth itself is protected by its magnetosphere.

University of California, Irvine radiation oncology professor Charles Limoli said "without a doubt" people would face the same issues as the mice.

May impact mission-critical activities

"Astronauts may incur cognitive impairments that lead to performance decrements, confusion, increased anxiety and longer-term problems with cognitive health," said Limoli, whose study appears in the journal Science Advances.

This could compromise mission critical activities, especially if unanticipated situations arise during deep spaceflight, Limoli said.

University of California, Irvine radiation oncology professor Charles Limoli said 'without a doubt' people would face the same issues as the mice, which showed brain damage after exposure to cosmic ray-like radiation. (Steve Zylius/University of California, Irvine)

The mice, genetically altered to have green fluorescent neurons to help structural analysis, were exposed to the rays at the NASA Space Radiation Laboratory at the Brookhaven National Laboratory in New York and then analyzed six weeks later.

In addition to the brain neuron and synapse changes, the mice exhibited decreased performance on learning and memory tests. They also lacked curiosity and were sluggish in experiments involving objects placed in a box with them.

Similar to early Alzheimer's

"Previous studies show synaptic impairment or loss of synapses is an early and invariant feature of Alzheimer's disease, and there is a strong correlation between the extent of synapse loss and the severity of dementia," said University of California, Irvine neuroscientist Vipan Kumar Parihar.

NASA says it is developing the capabilities needed to send humans to an asteroid by 2025 and Mars in the 2030s.

NASA spokeswoman Stephanie Schierholz said a Mars mission would take at least 2½ years: a six-month journey there, a stay on Mars of at least 18 months, and a six-month flight back.

Limoli said while Mars-bound astronauts cannot fully escape the rays, it may be possible to design spacecraft with areas of increased protective shielding.​


To encourage thoughtful and respectful conversations, first and last names will appear with each submission to CBC/Radio-Canada's online communities (except in children and youth-oriented communities). Pseudonyms will no longer be permitted.

By submitting a comment, you accept that CBC has the right to reproduce and publish that comment in whole or in part, in any manner CBC chooses. Please note that CBC does not endorse the opinions expressed in comments. Comments on this story are moderated according to our Submission Guidelines. Comments are welcome while open. We reserve the right to close comments at any time.

Become a CBC Member

Join the conversationCreate account

Already have an account?