Bone health could be negatively impacted by long-duration space flights, a study has discovered.
The research presented at the American College of Rheumatology Annual Scientific Meeting in Atlanta also said exposure to microgravity (also known as weightlessness) during space flight results in rapid bone loss.
Researchers recently set out to determine the impact of long-duration space missions on long-term bone health by assessing bone mineral density, which is a measurement of mineral bone content and an indirect estimator of bone strength.
The researchers studied 28 U.S. crewmembers (24 men and four women with a pre-flight age range of 36 to 53 years) whose missions in space ranged from 95 to 215 days.
All 28 crewmembers had their BMD measured both before and immediately after (within 33 days) their space flight, while 24 had their BMD measured again between six and 18 months following their return from space.
Post-flight BMD changes were compared with what would be predicted if crewmembers had not experienced long-duration space flight.
The predicted BMD changes were based on data from 348 men and 351 women who represented a random sample of the adult community population, none of whom had experienced space flight.
The men had their BMD measured at the beginning of the study, then again after two and four years, while women had their BMD measured at the beginning and again at one, two and four years.
BMD measurements were performed for the total body, the hip, the lumbar area of the spine, and two sites at the wrist (ultradistal and midshaft radius) in both the U.S. crewmembers and the community-based adults.
For each BMD site measured, researchers created prediction models based on data from the community-based adults and then used in these created models age, gender, the pre-flight BMD, and the time between the pre-flight, and post-flight/follow-up BMD for each U.S. crew member in order to predict what the follow-up BMD would have been had they not been exposed to long-duration space flight.
The BMD of U.S. crewmembers immediately after space flight was significantly lower than would have been predicted and consistent with what is known about bone loss during space flight.
However, researchers also noted that, at roughly 12 months after their return from space, BMD at several sites, (but not all) were still lower than would have been predicted had the crewmembers not experienced long-duration space flight.
These results led researchers to conclude that exposure to microgravity may have a long-term negative impact on the bone health of crewmembers serving on long-duration missions in space.
The variability of BMD changes in crewmembers, however, underscores the need to understand how multiple risk factors for bone loss may interact and influence skeletal changes during space travel and with recovery.
"Our results complement the work of others and show that even after one year following return from space, the BMD at some sites-particularly the hip-will not have completely recovered for some crew members," Shreyasee Amin, MD, MPH; associate professor at the Mayo Clinic and lead investigator in the study, said.
"Ideally, we need to identify better strategies to prevent the bone loss that occurs during space flight so that we can keep the bones of those serving on long-duration space missions healthy and strong for the long-term," Shreyasee added.