Brain waves show sound processing abnormalities in autistic children

CHICAGO—Abnormalities in auditory and language processing may be evaluated in children with autism spectrum disorder by using magnetoencephalography (MEG), according to a study presented today at the 94th annual meeting of the Radiological Society of North America (RSNA).

“Using MEG, we can record the tiny magnetic fields associated with electrical brain activity,” said the study’s presenter Timothy Roberts, PhD, vice chair of research in the department of radiology at Children's Hospital of Philadelphia. Typically used for epilepsy evaluation, the researchers said that MEG can also be used to identify timing abnormalities in the brains of patients with autism.

“We found that signatures of autism are revealed in the timing of brain activity,” Roberts said. "We see a fraction of a second delay in autistic patients.”
 
For the study, Roberts and colleagues evaluated 64 patients, age six to 15, with a diagnosis of autism spectrum disorder with MEG. Audio stimulation was introduced to the children in the form of beeps, tones in pairs, vowels or sentences. Sounds were presented at different frequencies and tone pairs in rapid succession, including unusual streams of incongruous tones and vowels. The results were analyzed and compared with the results from a control group of age-matched non-autistic children.

The findings showed that in the children with autism there was a fraction of a second delay in the brain's response while processing the rapid succession sounds and the unusual streams, giving researchers an insight into the dysfunction of the auditory processing system in autistic children.

“This delay in processing certain types and streams of sound may underpin the subsequent language processing and communication impairment seen in autistic children,” Roberts said.

He predicts that the signatures of autism found in brain activity will become biomarkers to improve classification of the disorder and aid in treatment and therapy planning.

“We hope that in the future these signatures will also be revealed in the infant brain to help diagnose autism and allow earlier intervention,” he said.

The National Institutes of Health (NIH) and the Nancy Lurie Marks Family Foundation funded the study.

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