The Impact of 6 and 12 Months in Space on Human Brain Structure and Intracranial Fluid Shifts
Kathleen E. Hupfeld, Heather R. McGregor, Jessica Lee, Nichole E. Beltran, I. S. Kofman, Yiri E. De Dios, Patti A Reuter-Lorenz, Roy Riascos, Ofer Pasternak, Scott J. Wood, Jacob J. Bloomberg, Ajitkumar P. Mulavara, Rachael D. Seidler, Alzheimer’s Disease Neuroimaging Initiative
Abstract
= 10 astronauts) missions impact brain structure and fluid shifts. We collected MRI scans once before flight and four times after flight. Astronauts served as their own controls; we evaluated pre- to postflight changes and return toward preflight levels across the 4 postflight points. We also provide data to illustrate typical brain changes over 7 years in a reference dataset. Twelve months in space generally resulted in larger changes across multiple brain areas compared with 6-month missions and aging, particularly for fluid shifts. The majority of changes returned to preflight levels by 6 months after flight. Ventricular volume substantially increased for 1 of the 12-month astronauts (left: +25%, right: +23%) and the 6-month astronauts (left: 17 ± 12%, right: 24 ± 6%) and exhibited little recovery at 6 months. Several changes correlated with past flight experience; those with less time between subsequent missions had larger preflight ventricles and smaller ventricular volume increases with flight. This suggests that spaceflight-induced ventricular changes may endure for long periods after flight. These results provide insight into brain changes that occur with long-duration spaceflight and demonstrate the need for closer study of fluid shifts.