Abstract
Abnormal auditory neuromagnetic M50 and M100 responses, reflecting primary/secondary auditory cortex processing, have been reported in children who have autism spectrum disorder (ASD). Some studies have reported an association between delays in these responses and language impairment. However, as most prior research has focused on verbal individuals with ASD without cognitive impairment, rather little is known about neural activity during auditory processing in minimally verbal or nonverbal children who have ASD (ASD-MVNV)—children with little or no speech and often significant cognitive impairment. To understand the neurophysiological mechanisms underlying auditory processing in ASD-MVNV children, magnetoencephalography (MEG) measured M50 and M100 responses arising from left and right superior temporal gyri during tone stimuli in three cohorts: (1) MVNV children who have ASD (ASD-MVNV), (2) verbal children who have ASD and no intellectual disability (ASD-V), and (3) typically developing (TD) children. One hundred and five participants (8–12 years) were included in the final analyses (ASD-MVNV: n = 16, 9.85 ± 1.32 years; ASD-V: n = 55, 10.64 ± 1.31 years; TD: n = 34, 10.18 ± 1.36 years). ASD-MVNV children showed significantly delayed M50 and M100 latencies compared to TD. These delays tended to be greater than the corresponding delays in verbal children with ASD. Across cohorts, delayed latencies were associated with language and communication skills, assessed by the Vineland Adaptive Behavior Scale Communication Domain. Findings suggest that auditory cortex neural activity measures could be dimensional objective indices of language impairment in ASD for either diagnostic (e.g., via threshold or cutoff) or prognostic (considering the continuous variable) use.
Highlights
Language and/or communication impairment is observed in almost all children who have autism spectrum disorder (ASD) [1]1, with a significant fraction classified as minimally verbal or nonverbal [13, 17,18,19, 33, 47]
The present study examined the hypotheses that superior temporal gyrus (STG) M50/M100 latencies would be delayed in ASDMVNV compared to ASD-V and typically developing (TD) indicating that a more pronounced auditory latency delay is associated with poorer prognosis as well as poorer language ability
Findings indicated delayed STG M50 and M100 neuromagnetic responses to simple auditory tones in Minimally verbal/nonverbal (MVNV) children who have ASD compared with ASD-V children or TD children
Summary
Language and/or communication impairment is observed in almost all children who have autism spectrum disorder (ASD) [1]1 , with a significant fraction classified as minimally verbal or nonverbal [13, 17,18,19, 33, 47]. A prior study implicated maturational changes in auditory pathway white matter as influencing conduction velocity and M100 latency in typically developing children [41]. This was not replicated in a cohort of children with ASD (whose M50 and M100 responses to sinusoidal tones were delayed), leading to the hypothesis that another mechanism (e.g., synaptic transmission) may influence auditory latency delay [45]. Examining left and right superior temporal gyrus (STG) activity, Edgar et al [8] reported delayed latency of left and right STG M50 and right STG M100 responses in children with ASD aged 6 to 15 years, again implicating maturational abnormalities in the development of primary/secondary auditory areas in children with ASD
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