Scientific Reports (Feb 2022)

Sleep macro- and microstructure in breast cancer survivors

  • J. Perrier,
  • M. Duivon,
  • P. Clochon,
  • S. Rehel,
  • F. Doidy,
  • J. M. Grellard,
  • C. Segura-Djezzar,
  • J. Geffrelot,
  • G. Emile,
  • D. Allouache,
  • C. Levy,
  • S. Polvent,
  • F. Viader,
  • F. Eustache,
  • F. Joly,
  • B. Giffard

DOI
https://doi.org/10.1038/s41598-022-06664-z
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 8

Abstract

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Abstract Complaints of sleep disturbance are prevalent among breast cancer (BC) patients and are predictors of quality of life. Still, electrophysiological measures of sleep are missing in patients, which prevents from understanding the pathophysiological consequences of cancer and its past treatments. Using polysomnography, sleep can be investigated in terms of macro- (e.g. awakenings, sleep stages) and micro- (i.e. cortical activity) structure. We aimed to characterize sleep complaints, and macro- and microstructure in 33 BC survivors untreated by chemotherapy and that had finished radiotherapy since at least 6 months (i.e. out of the acute effects of radiotherapy) compared to 21 healthy controls (HC). Compared to HC, BC patients had a larger number of awakenings (p = 0.008); and lower Delta power (p < 0.001), related to sleep deepening and homeostasis; greater both Alpha (p = 0.002) and Beta power (p < 0.001), related to arousal during deep sleep; and lower Theta power (p = 0.004), related to emotion regulation during dream sleep. Here we show that patients have increased cortical activity related to arousal and lower activity related to sleep homeostasis compared to controls. These results give additional insights in sleep pathophysiology of BC survivors and suggest sleep homeostasis disruption in non-advanced stages of BC.