OBJECTIVE: To evaluate whether eliciting repetitive cortical and autonomic arousals during sleep is able to induce the occurrence of periodic leg movements during sleep (PLMS). METHODS: Fifteen normal subjects underwent one night of uninterrupted and two sequential nights of experimental sleep fragmentation achieved by auditory and mechanical stimuli eliciting frequent EEG arousals. Sleep was polygraphically recorded and subsequently used to determine the frequency of arousals and occurrence of leg movement (LM) activity during the first (baseline) and the second fragmentation night. Also, heart rate variability parameters were obtained to assess the autonomic changes induced by the stimulation. RESULTS: Sleep fragmentation was associated with an increase in the arousal index, percentage of sleep stage 1, and frequency of stage shifts. In addition, there was a decrease in sleep latency and in percentage of slow-wave sleep. Moreover, a significant increase in heart rate variability and especially of its sympathetic component, was also found. In contrast, parameters of the leg movement activity showed no significant change following experimental sleep fragmentation. The lack of an increase in leg movement activity was also observed in one subject who demonstrated PLMS at baseline. CONCLUSIONS: Experimental sleep fragmentation is not associated with an increase in PLMS in normal young adults.
OBJECTIVE: To evaluate whether eliciting repetitive cortical and autonomic arousals during sleep is able to induce the occurrence of periodic leg movements during sleep (PLMS). METHODS: Fifteen normal subjects underwent one night of uninterrupted and two sequential nights of experimental sleep fragmentation achieved by auditory and mechanical stimuli eliciting frequent EEG arousals. Sleep was polygraphically recorded and subsequently used to determine the frequency of arousals and occurrence of leg movement (LM) activity during the first (baseline) and the second fragmentation night. Also, heart rate variability parameters were obtained to assess the autonomic changes induced by the stimulation. RESULTS: Sleep fragmentation was associated with an increase in the arousal index, percentage of sleep stage 1, and frequency of stage shifts. In addition, there was a decrease in sleep latency and in percentage of slow-wave sleep. Moreover, a significant increase in heart rate variability and especially of its sympathetic component, was also found. In contrast, parameters of the leg movement activity showed no significant change following experimental sleep fragmentation. The lack of an increase in leg movement activity was also observed in one subject who demonstrated PLMS at baseline. CONCLUSIONS: Experimental sleep fragmentation is not associated with an increase in PLMS in normal young adults.
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: Marco Zucconi; Raffaele Ferri; Richard Allen; Paul Christian Baier; Oliviero Bruni; Sudhansu Chokroverty; Luigi Ferini-Strambi; Stephany Fulda; Diego Garcia-Borreguero; Wayne A Hening; Max Hirshkowitz; Birgit Högl; Magdolna Hornyak; Martin King; Pasquale Montagna; Liborio Parrino; Giuseppe Plazzi; Mario G Terzano Journal: Sleep Med Date: 2006-02-03 Impact factor: 3.492
Authors: Mauro Manconi; Raffaele Ferri; Marco Zucconi; Stefan Clemens; Francesco Rundo; Alessandro Oldani; Luigi Ferini-Strambi Journal: Sleep Med Date: 2010-09-17 Impact factor: 3.492