NREM sleep EEG slow waves in autistic and typically developing children: Morphological characteristics and scalp distribution

Summary Autism is a developmental disorder with a neurobiological aetiology. Studies of the autistic brain identified atypical developmental trajectories that may lead to an impaired capacity to modulate electroencephalogram activity during sleep. We assessed the topography and characteristics of non‐rapid eye movement sleep electroencephalogram slow waves in 26 boys aged between 6 and 13 years old: 13 with an autism spectrum disorder and 13 typically developing. None of the participants was medicated, intellectually disabled, reported poor sleep, or suffered from medical co‐morbidities. Results are derived from a second consecutive night of polysomnography in a sleep laboratory. Slow waves (0.3–4.0 Hz; >75 µV) were automatically detected on artefact‐free sections of non‐rapid eye movement sleep along the anteroposterior axis in frontal, central, parietal and occipital derivations. Slow wave density (number per minute), amplitude (µV), slope (µV s −1 ) and duration (s) were computed for the first four non‐rapid eye movement periods. Slow wave characteristics comparisons between groups, derivations and non‐rapid eye movement periods were assessed with three‐way mixed ANOVAs. Slow wave density, amplitude, slope and duration were higher in anterior compared with most posterior derivations in both groups. Children with autism spectrum disorder showed lower differences in slow waves between recording sites along the anteroposterior axis than typically developing children. These group differences in the topography of slow wave characteristics were stable across the night. We propose that slow waves during non‐rapid eye movement sleep could be an electrophysiological marker of the deviant cortical maturation in autism linked to an atypical functioning of thalamo‐cortical networks.