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Constant intracranial pressure on back of eyes in 'zero-G' causes vision deterioration in astronauts!

To study how zero-gravity conditions affect intracranial pressure, researchers from University of Texas Southwestern Medical Centre recruited volunteer patients who had had a port permanently placed in their head as part of treatment for cancer.

Constant intracranial pressure on back of eyes in 'zero-G' causes vision deterioration in astronauts!

New York: Astronauts aboard the International Space Station (ISS) go through a lot of physical changes during the course of their mission in zero gravity.

Some changes are positive, for instance, American astronaut Scott Kelly spent a record-breaking year in space and returned with an added 1.5 inches in his height. However, he shrunk back to his normal height some time after he returned. He said, “Gravity pushes you back down to size.”

An example of negative changes that your body goes through when in zero gravity is vision deterioration.

French astronaut Thomas Pesquet, who is at present a resident of the ISS, recently shared a photograph of fellow crew member astronaut Peggy Whitson measuring his eye pressure.

This is because the constancy of intracranial pressure on the back of the eye causes the vision problems astronauts experience over time, according to a study.

Vision deterioration in astronauts is likely owing to the lack of a day-night cycle in intracranial pressure, say scientists, adding that using a vacuum device to lower pressure for part of each day might prevent the problem.

To study how zero-gravity conditions affect intracranial pressure, researchers from University of Texas Southwestern Medical Centre recruited volunteer patients who had had a port permanently placed in their head as part of treatment for cancer.

The ports provided a way for researchers to measure intracranial pressure.

NASA flights then flew the eight volunteers one by one on steep up-and-down maneuvers (parabolic flights) that created 20-second intervals of weightlessness.

The researchers measured intracranial pressure during the zero-gravity intervals and compared these with intracranial pressure during standard times of sitting, lying face upward (supine), and lying with head inclined downward.

The findings showed that intracranial pressure in zero-gravity conditions, such as exists in space, is higher than when people are standing or sitting on Earth, but lower than when people are sleeping on Earth.

"These challenging experiments were among the most ambitious human studies ever attempted and changed the way we think about the effect of gravity – and its absence – on pressure inside the brain," said senior author Dr Benjamin Levine, Professor of Internal Medicine.

"The information from these studies is already leading to novel partnerships with companies to develop tools to simulate the upright posture in space while astronauts sleep, thereby normalising the circadian variability in intracranial pressure," added Dr Levine.

"The idea is that the astronauts would wear negative pressure clothing or a negative pressure device while they sleep, creating lower intracranial pressure for part of each 24 hours," noted first author Dr Justin Lawley in a paper appeared in the Journal of Physiology.

(With IANS inputs)

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