Anna Ricci1, Fan He2, Susan L Calhoun1, Jidong Fang1, Alexandros N Vgontzas1, Duanping Liao2, Edward O Bixler1, Julio Fernandez-Mendoza3. 1. Sleep Research & Treatment Center, Department of Psychiatry & Behavioral Health, Penn State College of Medicine, 500 University Dr., Hershey, PA, 17033, USA. 2. Department of Public Health Sciences, Penn State College of Medicine, A210 Public Health Sciences, Hershey, PA, 17033, USA. 3. Sleep Research & Treatment Center, Department of Psychiatry & Behavioral Health, Penn State College of Medicine, 500 University Dr., Hershey, PA, 17033, USA. Electronic address: jfmendoza@psu.edu.
Abstract
BACKGROUND: Sleep slow wave activity (SWA) peaks during childhood and declines in the transition to adolescence during typical development (TD). It remains unknown whether this trajectory differs in youth with neuropsychiatric disorders. METHODS: We analyzed sleep EEGs of 664 subjects 6 to 21 y (449 TD, 123 unmedicated, 92 medicated) and 114 subjects 7-12 y (median 10.5 y) followed-up at 18-22 y (median 19 y). SWA (0.4-4 Hz) power was calculated during non-rapid eye movement sleep. RESULTS: TD and unmedicated youth showed cubic central and frontal SWA trajectories from 6 to 21 y (p-cubic<0.05), with TD youth showing peaks in central SWA at 6.8 y and frontal at 8.2 y. Unmedicated attention-deficit/hyperactivity (ADHD) and/or learning disorders (LD) showed peak central SWA 2 y later (at 9.6 y, coinciding with peak frontal SWA) than TD, followed by a 67% steeper slope by 19 y. Frontal SWA peak and slope in unmedicated ADHD/LD, and that of central and frontal in internalizing disorders (ID), were similar to TD. Unmedicated ADHD/LD did not differ in the longitudinal SWA percent change by 18-22 y; unmedicated ID showed a lower longitudinal change in frontal SWA than TD. Medicated youth showed a linear decline in central and frontal SWA from 6 to 21 y (p-linear<0.05). CONCLUSIONS: ADHD/LD youth show a maturational delay and potential topographical disruption in SWA during childhood and steeper decline throughout adolescence, suggesting faster synaptic pruning. Youth with ID experience less changes in frontal SWA by late adolescence. Psychotropic medications may impact the maturational trajectory of SWA, but not the magnitude of developmental decline by late adolescence.
BACKGROUND: Sleep slow wave activity (SWA) peaks during childhood and declines in the transition to adolescence during typical development (TD). It remains unknown whether this trajectory differs in youth with neuropsychiatric disorders. METHODS: We analyzed sleep EEGs of 664 subjects 6 to 21 y (449 TD, 123 unmedicated, 92 medicated) and 114 subjects 7-12 y (median 10.5 y) followed-up at 18-22 y (median 19 y). SWA (0.4-4 Hz) power was calculated during non-rapid eye movement sleep. RESULTS: TD and unmedicated youth showed cubic central and frontal SWA trajectories from 6 to 21 y (p-cubic<0.05), with TD youth showing peaks in central SWA at 6.8 y and frontal at 8.2 y. Unmedicated attention-deficit/hyperactivity (ADHD) and/or learning disorders (LD) showed peak central SWA 2 y later (at 9.6 y, coinciding with peak frontal SWA) than TD, followed by a 67% steeper slope by 19 y. Frontal SWA peak and slope in unmedicated ADHD/LD, and that of central and frontal in internalizing disorders (ID), were similar to TD. Unmedicated ADHD/LD did not differ in the longitudinal SWA percent change by 18-22 y; unmedicated ID showed a lower longitudinal change in frontal SWA than TD. Medicated youth showed a linear decline in central and frontal SWA from 6 to 21 y (p-linear<0.05). CONCLUSIONS: ADHD/LD youth show a maturational delay and potential topographical disruption in SWA during childhood and steeper decline throughout adolescence, suggesting faster synaptic pruning. Youth with ID experience less changes in frontal SWA by late adolescence. Psychotropic medications may impact the maturational trajectory of SWA, but not the magnitude of developmental decline by late adolescence.
Authors: Julio Fernandez-Mendoza; Elizaveta Bourchtein; Susan Calhoun; Kristina Puzino; Cynthia K Snyder; Fan He; Alexandros N Vgontzas; Duanping Liao; Edward Bixler Journal: Sleep Date: 2021-03-12 Impact factor: 5.849
Authors: A Giorgio; K E Watkins; M Chadwick; S James; L Winmill; G Douaud; N De Stefano; P M Matthews; S M Smith; H Johansen-Berg; A C James Journal: Neuroimage Date: 2009-08-11 Impact factor: 6.556
Authors: Kristina Puzino; Elizaveta Bourchtein; Susan L Calhoun; Fan He; Alexandros N Vgontzas; Duanping Liao; Edward O Bixler; Julio Fernandez-Mendoza Journal: J Child Psychol Psychiatry Date: 2021-07-26 Impact factor: 8.265