MUSCULOSKELETAL PRIORITY RESEARCH AREA A SNAPSHOT OF ACTIVITY
Helping astronauts tackle the health challenges of spaceflight
As the National Aeronautics and Space Administration (NASA) progresses its ambitious Artemis spaceflight program, Australian researchers including the Kolling Institute’s Academic Director Professor James Elliott have tapped into their scientific expertise to offer support. Professor Elliott attended an event at NASA’s Johnson Space Centre in Texas, which brought together leading clinicians and scientists from around the world to discuss ways to reduce the spine injuries experienced by astronauts. This group is exposed to a range of musculoskeletal conditions including spinal pain and muscle challenges due to the lack of gravity when in space. Professor Elliott said physical changes to the spine during spaceflight predispose astronauts to symptomatic spine pain and nearly 50 per cent of cases presenting to NASA’s musculoskeletal care team involve this type of pain. “The risk of spine pain during and after spaceflight raises operational issues and concerns for the long-term spine health of astronauts and others going into space,” he said. “We are looking forward to sharing our expertise to help reduce injury, and improve the health and performance of astronauts. “NASA has expressed an interest in our MuscleMap program, which is a revolutionary technique to assess whole-body skeletal muscle composition using high-resolution MRI. “More than 50 clinicians and researchers are contributing to our program representing physics, engineering, oncology, radiology and many more specialties.
Professor James Elliott at the NASA Johnson Space Centre in Texas
“We are generating a reference dataset of muscle composition across the lifespan to help diagnose pathology, gauge the effectiveness of interventions, and develop new health outcome measures. “We are using the latest AI technology to revolutionise the measurement of skeletal muscles. “The normative data sets, developed by the MuscleMap program, could be used to compare data sets from astronauts, so that when they return from outer space, and they’ve experienced zero gravity exposure, you will be able to see what’s happened to their muscle system and what has changed to their skeletal muscle composition. “The MuscleMap assessment tool will help improve their pain and performance when they’re in space, when they get home, and in preparation for future missions. “We are very excited to be involved with this cutting- edge research which we hope will directly support astronauts and their long-term health.”
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