npj Microgravity (Nov 2021)

Altered sleep spindles and slow waves during space shuttle missions

  • Dominik P. Koller,
  • Vida Kasanin,
  • Erin E. Flynn-Evans,
  • Jason P. Sullivan,
  • Derk-Jan Dijk,
  • Charles A. Czeisler,
  • Laura K. Barger

DOI
https://doi.org/10.1038/s41526-021-00177-1
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 11

Abstract

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Abstract Sleep deficiencies and associated performance decrements are common among astronauts during spaceflight missions. Previously, sleep in space was analyzed with a focus on global measures while the intricate structure of sleep oscillations remains largely unexplored. This study extends previous findings by analyzing how spaceflight affects characteristics of sleep spindles and slow waves, two sleep oscillations associated with sleep quality and quantity, in four astronauts before, during and after two Space Shuttle missions. Analysis of these oscillations revealed significantly increased fast spindle density, elevated slow spindle frequency, and decreased slow wave amplitude in space compared to on Earth. These results reflect sleep characteristics during spaceflight on a finer electrophysiological scale and provide an opportunity for further research on sleep in space.