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Citation |
Demertzi A, Van Ombergen A, Tomilovskaya E, Jeurissen B, Pechenkova E, Di Perri C, Litvinova L, Amico E, Rumshiskaya A, Rukavishnikov I, Sijbers J, Sinitsyn V, Kozlovskaya IB, Sunaert S, Parizel PM, Van de Heyning PH, Laureys SS, Wuyts FL. Brain Struct. Funct. 2015; 221(5): 2873-2876. |
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Affiliation |
Coma Science Group, Cyclotron Research Centre and Neurology Department, University of Liège, Liège, Belgium. |
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Copyright |
(Copyright © 2015, Holtzbrinck Springer Nature Publishing Group) |
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DOI |
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PMID |
25963710 |
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Abstract |
To date, hampered physiological function after exposure to microgravity has been primarily attributed to deprived peripheral neuro-sensory systems. For the first time, this study elucidates alterations in human brain function after long-duration spaceflight. More specifically, we found significant differences in resting-state functional connectivity between motor cortex and cerebellum, as well as changes within the default mode network. In addition, the cosmonaut showed changes in the supplementary motor areas during a motor imagery task. These results highlight the underlying neural basis for the observed physiological deconditioning due to spaceflight and are relevant for future interplanetary missions and vestibular patients. Language: en |