Defining the Sleep Phenotype in Children with Autism

Sleep concerns are common in children with autism spectrum disorders (ASD). We identified objective sleep measures that differentiated ASD children with and without parental sleep concerns, and related parental concerns and objective measures to aspects of daytime behavior. ASD poor sleepers differed from ASD good sleepers on actigraphic (sleep latency, sleep efficiency, fragmentation) and polysomnographic (sleep latency) measures, and were reported to have more inattention, hyperactivity, and restricted/repetitive behaviors. Fragmentation was correlated with more restricted/repetitive behaviors. This work provides the foundation for focused studies of pathophysiology and targeted interventions to improve sleep in this population

Relation of Melatonin to Sleep Architecture in Children with Autism

Children with autism often suffer from sleep disturbances, and compared to age-matched controls, have decreased melatonin levels, as indicated by urine levels of the primary melatonin metabolite, 6-sulfatoxymelatonin (6-SM). We therefore investigated the relationship between 6-SM levels and sleep architecture in children with autism spectrum disorders (ASD). Twenty-three children, aged 4–10 years, completed two nights of polysomnography and one overnight urine collection for measurement of urinary 6-SM excretion rate. Parents completed the Children’s Sleep Habits Questionnaire. We found that higher urinary 6-SM excretion rates were associated with increased N3 sleep, decreased N2 sleep, and decreased daytime sleepiness. The results warrant further examination to examine the effects of supplemental melatonin on sleep architecture and daytime sleepiness

A Pilot Study of Shoulder Placement for Actigraphy in Children

Children with neurodevelopmental disorders may have difficulty tolerating devices that monitor sleep, presenting challenges in measuring sleep disturbances in this population. Although wrist actigraphy has advantages over polysomnography, some children remain unable to tolerate wrist placement. This study piloted an alternative site for actigraphy in 8 children with autism, ages 6-10 years. Results are presented from the 2 locations (custom pocket shoulder location and wrist location) using Bland-Altman limits of agreement and other statistical measures to compare sleep onset latency, total sleep time, sleep efficiency, and wake after sleep onset. The use of an alternative actigraphy site for children with autism, who have difficulty tolerating actigraphy placement, appears promising and worthy of further study