Mathematical model offers insight into health effects of landing humans on Mars
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A mathematical model for determining the safety of landing astronauts on Mars has been developed by space medicine experts from The Australian National University (ANU).
The team simulated the impact of prolonged exposure to zero gravity on the cardiovascular system to determine whether the human body can tolerate Mars’ gravitational forces – which aren’t as strong as on Earth – without fainting or suffering a medical emergency when stepping out of a spacecraft.
The model could be used to assess the impact of short and long duration space flight on the body and provide vital information for landing humans on Mars in the future.
There are multiple risks associated with travelling to Mars, although one of the largest is prolonged exposure to microgravity which could cause fundamental changes to the body alongside exposure to damaging radiation from the Sun.
“We know it takes about six to seven months to travel to Mars and this could cause the structure of your blood vessels or the strength of your heart to change due to the weightlessness experienced as a result of zero-gravity space travel,” said ANU’s Dr Lex van Loon, lead author of the paper.
“With the rise of commercial space-flight agencies like Space X and Blue Origin, there’s more room for rich but not necessarily healthy people to go into space, so we want to use mathematical models to predict whether someone is fit to fly to Mars.”
Astrophysicist and emergency medicine registrar Dr Emma Tucker said prolonged exposure to zero gravity can cause the heart to become lazy because it doesn’t have to work as hard to overcome gravity in order to pump blood around the body.
“When you’re on Earth, gravity is pulling fluid to the bottom half of your body, which is why some people find their legs begin to swell up toward the end of the day. But when you go into space that gravitational pull disappears, which means the fluid shifts to the top half of your body and that triggers a response that fools the body into thinking there’s too much fluid,” she said.
“As a result, you start going to the toilet a lot, you start getting rid of extra fluid, you don’t feel thirsty and you don’t drink as much, which means you become dehydrated in space.
“This is why you might see astronauts on the news faint when they step foot on Earth again. This is quite a common occurrence as a result of space travel, and the longer you’re in space the more likely you are to collapse when you return to gravity.
“The purpose of our model is to predict, with great accuracy, whether an astronaut can safely arrive on Mars without fainting. We believe it’s possible.”
Due to a communication delay in relaying messages between Mars and Earth, astronauts must be able to carry out their duties without receiving immediate assistance from support crews. This window of radio silence differs depending on the alignment of the Sun, Earth and Mars in its orbit, but could last for at least 20 minutes.
“If an astronaut faints when they first step out of the spacecraft or if there’s a medical emergency, there’ll be nobody on Mars to help them,” Dr van Loon said.
“This is why we must be absolutely certain the astronaut is fit to fly and can adapt to Mars’ gravitational field. They must be able to operate effectively and efficiently with minimal support during those crucial first few minutes.”
The model uses an algorithm based on astronaut data collected from past space expeditions, including the Apollo Missions, to simulate the risks involved with travelling to Mars.
Although the space data used to inform the parameters of the model is derived from middle-aged and well-trained astronauts, the researchers hope to expand its capabilities by simulating the impact of prolonged space travel on relatively unhealthy individuals with pre-existing heart conditions. This would provide the researchers with a more holistic picture of what would happen if an “everyday” person was to travel into space.
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