We evaluated the cyclic alternating pattern (CAP) during the first year of life in order to obtain information on the maturation of arousal mechanisms during NREM sleep and to provide normative data for CAP parameters in this age range (5-16 months). Eleven healthy children (mean age 7.9 +/- 3.3 months, seven boys) were studied while they slept in the morning. They underwent a 3-h video-EEG-polysomnographic recording at the Pediatric Sleep Unit of Sant'Andrea Hospital in Rome, Italy. Sleep was scored visually for sleep architecture and CAP analysis using standard criteria. Our results were complemented by CAP data from a previous sample of healthy infants (2-4 months), studied when they slept during the morning, in order to correlate CAP parameters with age. The total sample comprised 24 children. The sleep period was approximately 2 h, with a first REM latency of about 30 min, and a clear distinction between stages NI, N2, and N3. The arousal index was 12 +/- 2.1 events/hour of sleep. The total CAP rate was 23.7 +/- 7.6%, and it increased progressively with the deepness of sleep; the highest values were observed during stage N3 and the lowest values during stage NI. Al phases were the most numerous (78.2%), followed by A2 (14%) and A3 (7.7%) phases. The Al index was higher than the A2 and A3 indices, whereas the mean duration of B was higher than that of A. The correlation showed that the CAP rate, Al, A2, A3 indices, A2, A3 percentages, and the average duration of B increased with age, whereas the Al percentage decreased. We provide the first data on CAP analysis in children aged 5-16 months, studied when they slept during the morning. Our results confirm the trend toward an increase in CAP rate during the first year of life. In addition, we observed a progressive increase in CAP rate with deepness of sleep, and with age, reflecting maturation of slow-wave activity. The decreased percentage of Al subtypes may reflect the maturation of arousability. (C) 2010 The Japanese Society of Child Neurology. Published by Elsevier B.V. All rights reserved.
Sleep cyclic alternating pattern analysis in healthy children during the first year of life: A daytime polysomnographic study / Miano, Silvia; Rosa Peraita, Adrados; Marilisa, Montesano; Castaldo, Rosa; Martina, Forlani; Villa, MARIA PIA. - In: BRAIN & DEVELOPMENT. - ISSN 0387-7604. - 33:5(2011), pp. 421-427. [10.1016/j.braindev.2010.07.008]
Sleep cyclic alternating pattern analysis in healthy children during the first year of life: A daytime polysomnographic study
MIANO, Silvia;CASTALDO, Rosa;VILLA, MARIA PIA
2011
Abstract
We evaluated the cyclic alternating pattern (CAP) during the first year of life in order to obtain information on the maturation of arousal mechanisms during NREM sleep and to provide normative data for CAP parameters in this age range (5-16 months). Eleven healthy children (mean age 7.9 +/- 3.3 months, seven boys) were studied while they slept in the morning. They underwent a 3-h video-EEG-polysomnographic recording at the Pediatric Sleep Unit of Sant'Andrea Hospital in Rome, Italy. Sleep was scored visually for sleep architecture and CAP analysis using standard criteria. Our results were complemented by CAP data from a previous sample of healthy infants (2-4 months), studied when they slept during the morning, in order to correlate CAP parameters with age. The total sample comprised 24 children. The sleep period was approximately 2 h, with a first REM latency of about 30 min, and a clear distinction between stages NI, N2, and N3. The arousal index was 12 +/- 2.1 events/hour of sleep. The total CAP rate was 23.7 +/- 7.6%, and it increased progressively with the deepness of sleep; the highest values were observed during stage N3 and the lowest values during stage NI. Al phases were the most numerous (78.2%), followed by A2 (14%) and A3 (7.7%) phases. The Al index was higher than the A2 and A3 indices, whereas the mean duration of B was higher than that of A. The correlation showed that the CAP rate, Al, A2, A3 indices, A2, A3 percentages, and the average duration of B increased with age, whereas the Al percentage decreased. We provide the first data on CAP analysis in children aged 5-16 months, studied when they slept during the morning. Our results confirm the trend toward an increase in CAP rate during the first year of life. In addition, we observed a progressive increase in CAP rate with deepness of sleep, and with age, reflecting maturation of slow-wave activity. The decreased percentage of Al subtypes may reflect the maturation of arousability. (C) 2010 The Japanese Society of Child Neurology. Published by Elsevier B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
