UNLABELLED: STUDY OBJECTIVIES: several studies have investigated slow wave sleep EEG parameters, including slow-wave activity (SWA) in relation to somnambulism, but results have been both inconsistent and contradictory. The first goal of the present study was to conduct a quantitative analysis of sleepwalkers' sleep EEG by studying fluctuations in spectral power for delta (1-4 Hz) and slow delta (0.5-1 Hz) before the onset of somnambulistic episodes. A secondary aim was to detect slow-wave oscillations to examine changes in their amplitude and density prior to behavioral episodes. PARTICIPANTS: twenty-two adult sleepwalkers were investigated polysomnographically following 25 h of sleep deprivation. RESULTS: analysis of patients' sleep EEG over the 200 sec prior to the episodes' onset revealed that the episodes were not preceded by a gradual increase in spectral power for either delta or slow delta over frontal, central, or parietal leads. However, time course comparisons revealed significant changes in the density of slow-wave oscillations as well as in very slow oscillations with significant increases occurring during the final 20 sec immediately preceding episode onset. CONCLUSIONS: the specificity of these sleep EEG parameters for the occurrence and diagnosis of NREM parasomnias remains to be determined.
UNLABELLED: STUDY OBJECTIVIES: several studies have investigated slow wave sleep EEG parameters, including slow-wave activity (SWA) in relation to somnambulism, but results have been both inconsistent and contradictory. The first goal of the present study was to conduct a quantitative analysis of sleepwalkers' sleep EEG by studying fluctuations in spectral power for delta (1-4 Hz) and slow delta (0.5-1 Hz) before the onset of somnambulistic episodes. A secondary aim was to detect slow-wave oscillations to examine changes in their amplitude and density prior to behavioral episodes. PARTICIPANTS: twenty-two adult sleepwalkers were investigated polysomnographically following 25 h of sleep deprivation. RESULTS: analysis of patients' sleep EEG over the 200 sec prior to the episodes' onset revealed that the episodes were not preceded by a gradual increase in spectral power for either delta or slow delta over frontal, central, or parietal leads. However, time course comparisons revealed significant changes in the density of slow-wave oscillations as well as in very slow oscillations with significant increases occurring during the final 20 sec immediately preceding episode onset. CONCLUSIONS: the specificity of these sleep EEG parameters for the occurrence and diagnosis of NREM parasomnias remains to be determined.
Authors: T Hori; Y Sugita; E Koga; S Shirakawa; K Inoue; S Uchida; H Kuwahara; M Kousaka; T Kobayashi; Y Tsuji; M Terashima; K Fukuda; N Fukuda Journal: Psychiatry Clin Neurosci Date: 2001-06 Impact factor: 5.188
Authors: Anna Castelnovo; Brady A Riedner; Richard F Smith; Giulio Tononi; Melanie Boly; Ruth M Benca Journal: Sleep Date: 2016-10-01 Impact factor: 5.849
Authors: Pietro-Luca Ratti; Maria Sierra-Peña; Raffaele Manni; Marion Simonetta-Moreau; Julien Bastin; Harrison Mace; Olivier Rascol; Olivier David Journal: PLoS One Date: 2015-03-10 Impact factor: 3.240