To provide the basis and reference to further insights into the neural activity of the human brain in a microgravity environment, we discuss the amplitude changes of low-frequency brain activity fluctuations using a simulated microgravity model. Twelve male participants between 24 and 31 years old received resting-state fMRI scans in both a normal condition and after 72 hours in a -6° head down tilt (HDT). A paired sample t-test was used to test the amplitude differences of low-frequency brain activity fluctuations between these two conditions. With 72 hours in a -6° HDT, the participants showed a decreased amplitude of low-frequency fluctuations in the left thalamus compared with the normal condition (a combined threshold of P<0.005 and a minimum cluster size of 351 mm3 (13 voxels), which corresponded with the corrected threshold of P<0.05 determined by AlphaSim). Our findings indicate that a gravity change-induced redistribution of body fluid may disrupt the function of the left thalamus in the resting state, which may contribute to reduced motor control abilities and multiple executive functions in astronauts in a microgravity environment. © 2012 Liao et al.
CITATION STYLE
Liao, Y., Zhang, J., Huang, Z., Xi, Y., Zhang, Q., Zhu, T., & Liu, X. (2012). Altered Baseline Brain Activity with 72 h of Simulated Microgravity - Initial Evidence from Resting-State fMRI. PLoS ONE, 7(12). https://doi.org/10.1371/journal.pone.0052558
Mendeley helps you to discover research relevant for your work.