1. Antipov, B. P., Davydov, B. I., Ushakov, I. B., & Fedorov, V. P. (1991). The effects of space flight factors on the central nervous system: Structural-functional aspects of the radiomodifying effect. Space Life Sciences Digest, 30, 72.
2. Barger, L. K., Flynn-Evans, E. E., Kubey, A., Walsh, L., Ronda, J. M., Wang, W., Wright, K. P., Jr., & Czeisler, C. A. (2014). Prevalence of sleep deficiency and use of hypnotic drugs in astronauts before, during, and after spaceflight: An observational study. Lancet Neurology, 13(9), 904–912. https://doi.org/10.1016/S1474-4422(14)70122-X
3. Basner, M., Dinges, D. F., Mollicone, D. J., Savelev, I., Ecker, A. J., Di Antonio, A., Jones, C. W., Hyder, E. C., Kan, K., Morukov, B. V., & Sutton, J. P. (2014). Psychological and behavioral changes during confinement in a 520-day simulated interplanetary mission to mars. PLoS ONE, 9(3). https://doi.org/10.1371/journal.pone.0093298
4. Buckey, J. C., & Homick, J. L. (Eds.). (2003). Neurolab Spacelab mission: Neuroscience research in space results from the STS-90, Neurolab Spacelab mission. NASA SP-2003-535. National Aeronautics and Space Administration Lyndon B. Johnson Space Center.
5. Clément, G. R., Boyle, R. D., George, K. A., Nelson, G. A., Reschke, M. F., Williams, T. J., & Paloski, W. H. (2020). Challenges to the central nervous system during human spaceflight missions to Mars. Journal of Neurophysiology, 123(5), 2037–2063. https://doi.org/10.1152/jn.00476.2019