BACKGROUND: Prior investigations have suggested sleep homeostasis is altered in major depressive disorder (MDD). Low frequency activity (LFA) in the electroencephalogram during waking has been correlated with sleep slow wave activity (SWA), suggesting that waking LFA reflects sleep homeostasis in healthy individuals. This study investigated whether the overnight change in waking LFA and its relationship with sleep SWA are altered in MDD. METHODS: 256-channel high-density electroencephalography (hdEEG) recordings during waking (pre- and post-sleep) and during sleep were collected in 14 unmedicated, unipolar MDD subjects (9 women) and age- and sex-matched healthy controls (HC). RESULTS: Waking LFA (3.25-6.25 Hz) declined significantly overnight in the HC group, but not in the group of MDD subjects. Overnight decline of waking LFA correlated with sleep SWA in frontal brain regions in HC, but a comparable relationship was not found in MDD. LIMITATIONS: This study is not able to definitely segregate overnight changes in the waking EEG that may occur due to homeostatic and/or circadian factors. CONCLUSIONS: MDD involves altered overnight modulation of waking low frequency EEG activity that may reflect altered sleep homeostasis in the disorder. Future research is required to determine the functional significance and clinical implications of these findings.
BACKGROUND: Prior investigations have suggested sleep homeostasis is altered in major depressive disorder (MDD). Low frequency activity (LFA) in the electroencephalogram during waking has been correlated with sleep slow wave activity (SWA), suggesting that waking LFA reflects sleep homeostasis in healthy individuals. This study investigated whether the overnight change in waking LFA and its relationship with sleep SWA are altered in MDD. METHODS: 256-channel high-density electroencephalography (hdEEG) recordings during waking (pre- and post-sleep) and during sleep were collected in 14 unmedicated, unipolar MDD subjects (9 women) and age- and sex-matched healthy controls (HC). RESULTS: Waking LFA (3.25-6.25 Hz) declined significantly overnight in the HC group, but not in the group of MDD subjects. Overnight decline of waking LFA correlated with sleep SWA in frontal brain regions in HC, but a comparable relationship was not found in MDD. LIMITATIONS: This study is not able to definitely segregate overnight changes in the waking EEG that may occur due to homeostatic and/or circadian factors. CONCLUSIONS:MDD involves altered overnight modulation of waking low frequency EEG activity that may reflect altered sleep homeostasis in the disorder. Future research is required to determine the functional significance and clinical implications of these findings.
Authors: S Frey; A Birchler-Pedross; M Hofstetter; P Brunner; T Götz; M Münch; K Blatter; V Knoblauch; A Wirz-Justice; C Cajochen Journal: Sleep Med Date: 2012-05-19 Impact factor: 3.492
Authors: Angelina Birchler-Pedross; Sylvia Frey; Sarah Laxhmi Chellappa; Thomas Götz; Patrick Brunner; Vera Knoblauch; Anna Wirz-Justice; Christian Cajochen Journal: Sleep Date: 2011-12-01 Impact factor: 5.849
Authors: Géraldine M Mang; Francesco La Spada; Yann Emmenegger; Sylvie Chappuis; Jürgen A Ripperger; Urs Albrecht; Paul Franken Journal: Sleep Date: 2016-03-01 Impact factor: 5.849