Rachel E Kaskie1, Kathryn M Gill1, Fabio Ferrarelli2. 1. Department of Psychiatry, University of Pittsburgh, USA. 2. Department of Psychiatry, University of Pittsburgh, USA. Electronic address: ferrarellif@upmc.edu.
Abstract
BACKGROUND: Sleep disturbances are commonly reported in psychotic patients and often contribute to the manifestation and severity of their symptoms. Slow waves characterize the deepest stage of NREM sleep, and their occurrence is critical for restorative sleep. Slow wave abnormalities have been reported in patient with schizophrenia, especially when experiencing an exacerbation of psychosis. However, their presence and delineation, with an emphasis on topography, in first-episode psychosis patients (FEP) have not yet been characterized. METHODS: We performed sleep high density (hd)-EEG recordings in twenty FEP patients and twenty healthy control subjects (HC). Slow wave activity (SWA) and several other slow wave parameters, e.g. density, amplitude, up- and down-slopes, were calculated at each electrode location and compared across groups. Additionally, the association between slow wave characteristics and clinical symptoms was assessed. RESULTS: FEP patients showed a reduction selectively in slow-wave density relative to HC, and this reduction was significant in a large frontal area, including channels overlying the prefrontal cortex. Furthermore, slow wave density was inversely correlated with the severity of FEP positive symptoms. CONCLUSIONS: Abnormalities in slow waves are present at the beginning of psychosis, occur in frontal-prefrontal regions that are highly dysfunctional in psychotic patients, and are associated with their positive symptom severity. Building on these findings, future work will help establish the direction of these associations (i.e., if clinical symptoms precede, coincide, or follow SW deficits), which will determine whether ameliorating slow wave sleep deficits is a viable treatment target in early psychosis.
BACKGROUND: Sleep disturbances are commonly reported in psychoticpatients and often contribute to the manifestation and severity of their symptoms. Slow waves characterize the deepest stage of NREM sleep, and their occurrence is critical for restorative sleep. Slow wave abnormalities have been reported in patient with schizophrenia, especially when experiencing an exacerbation of psychosis. However, their presence and delineation, with an emphasis on topography, in first-episode psychosispatients (FEP) have not yet been characterized. METHODS: We performed sleep high density (hd)-EEG recordings in twenty FEP patients and twenty healthy control subjects (HC). Slow wave activity (SWA) and several other slow wave parameters, e.g. density, amplitude, up- and down-slopes, were calculated at each electrode location and compared across groups. Additionally, the association between slow wave characteristics and clinical symptoms was assessed. RESULTS: FEP patients showed a reduction selectively in slow-wave density relative to HC, and this reduction was significant in a large frontal area, including channels overlying the prefrontal cortex. Furthermore, slow wave density was inversely correlated with the severity of FEP positive symptoms. CONCLUSIONS: Abnormalities in slow waves are present at the beginning of psychosis, occur in frontal-prefrontal regions that are highly dysfunctional in psychoticpatients, and are associated with their positive symptom severity. Building on these findings, future work will help establish the direction of these associations (i.e., if clinical symptoms precede, coincide, or follow SW deficits), which will determine whether ameliorating slow wave sleep deficits is a viable treatment target in early psychosis.
Authors: David T Plante; Jesse D Cook; Leonardo S Barbosa; Michael R Goldstein; Michael L Prairie; Richard F Smith; Brady A Riedner Journal: Sleep Date: 2019-06-11 Impact factor: 5.849
Authors: Nataliia Kozhemiako; Jun Wang; Chenguang Jiang; Zhenhe Zhou; Wei Zhu; Mei-Hua Hal; Shaun M Purcell; Jen Q Pan; Lei A Wang; Guanchen Gai; Kai Zou; Zhe Wang; Xiaoman Yu; Lin Zhou; Shen Li; Zhenglin Guo; Robert Law; James Coleman; Dimitrios Mylonas; Lu Shen; Guoqiang Wang; Shuping Tan; Shengying Qin; Hailiang Huang; Michael Murphy; Robert Stickgold; Dara Manoach Journal: Elife Date: 2022-05-17 Impact factor: 8.713