PUBLIC RELEASE DATE:

26-Nov-2014

Contact: Greg Richter gregory.richter@uphs.upenn.edu 215-614-1937 University of Pennsylvania School of Medicine @PennMedNews

Space is one of the most demanding and unforgiving environments. Human exploration of space requires astronauts to maintain consistently high levels of cognitive performance to ensure mission safety and success, and prevent potential errors and accidents. Despite the importance of cognitive performance for mission success, little is known about how cognition is affected by prolonged spaceflight, and what aspects of cognition are primarily affected.

Now, Penn Medicine researchers are poised to help the National Aeronautics and Space Administration (NASA) close this knowledge gap. They have developed a cognitive test battery, known as Cognition, for the National Space Biomedical Research Institute (NSBRI) to measure the impact of typical spaceflight stressors (like microgravity, radiation, confinement and isolation, exposure to elevated levels of CO2, and sleep loss) on cognitive performance. This computer-based test has already been tested by astronauts on Earth. It will be performed for the first time in a pilot study on the International Space Station (ISS) on November 28.

The Penn team, led by Mathias Basner, MD, PhD, MSc, assistant professor of sleep and chronobiology in Psychiatry, David F. Dinges, PhD, professor and chief, Division of Sleep and Chronobiology, Department of Psychiatry, and Ruben C. Gur, PhD, professor of Psychology, Director of Neuropsychology, the Brain Behavior Laboratory, and the Center for Neuroimaging in Psychiatry, developed Cognition as a brief and sensitive computerized neurocognitive test battery for spaceflight. With its 10 tests, it is more comprehensive than NASA's current test battery.

"Cognition addresses, among other areas, spatial orientation, emotion recognition, and risk decision making, which we believe are essential for the success of exploration-type space missions," said Basner.

The team chose tests with well-validated testing principles and whose link to cerebral networks has already been established with functional neuroimaging, such as MRI. The tests were then optimized for astronauts.

"We know that astronauts are highly motivated and usually outperform the general population," said Basner. "The difficulty of the tests therefore had to be tailored to astronauts, to avoid both boredom and frustration."

The team generated 15 unique versions of the 10 tests to allow for repeated administration in spaceflight.

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Penn Medicine team develops cognitive test battery for spaceflight