Head-Down Tilt Position, but Not the Duration of Bed Rest Affects Resting State Electrocortical Activity
Open Access
- 24 February 2021
- journal article
- research article
- Published by Frontiers Media SA in Frontiers in Physiology
Abstract
Adverse cognitive and behavioral conditions and psychiatric disorders are considered a critical and unmitigated risk during future long-duration space missions (LDSM). Monitoring and mitigating crew health and performance risks during these missions will require tools and technologies that allow to reliably assess cognitive performance capability and mood states. Electroencephalography (EEG) has the potential to meet the technical requirements for the use during LDSM. Weightlessness is associated with a fluid and brain shift and these effects could potentially confound EEG recordings. Head-down tilt bed rest (HDBR) provides a unique spaceflight analog to study these effects on Earth. Here, we present data from two long-duration HDBR experiments, which were used to systematically investigate the time course of resting state electrocortical activity during prolonged HDBR. EEG spectral power significantly reduced within the delta, theta, alpha, and beta frequency bands. Likewise, EEG source localization revealed significantly lower activity in a broad range of centroparietal and occipital areas within the alpha and beta domain. These changes were observed shortly after the onset of HDBR, did not change throughout HDBR, and returned to baseline after the cessation of bed rest. EEG resting state functional connectivity was not affected by HDBR. The results provide evidence for a postural effect on resting state brain activity that persists throughout long-duration HDBR, indicating that immobilization and inactivity per se do not affect resting state electrocortical activity during HDBR. Our findings raise an important issue on the validity of EEG to identify the time course of changes in brain function during prolonged HBDR and highlight the importance to use a common body posture during all recording sessions, including baseline and recovery.Keywords
Funding Information
- Deutsches Zentrum für Luft- und Raumfahrt (50WB1525)
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