EEG Evidence for Mirror Neuron Dysfunction in Autism Spectrum Disorders

Overview

Journal Brain Res Cogn Brain Res

Specialties Neurology
Psychology

Date 2005 Jul 5

PMID 15993757

Citations 257

Authors

Lindsay M Oberman

Edward M Hubbard

Joseph P McCleery

Eric L Altschuler

Vilayanur S Ramachandran

Jaime A Pineda

Affiliations

Soon will be listed here.

Abstract

Autism spectrum disorders (ASD) are largely characterized by deficits in imitation, pragmatic language, theory of mind, and empathy. Previous research has suggested that a dysfunctional mirror neuron system may explain the pathology observed in ASD. Because EEG oscillations in the mu frequency (8-13 Hz) over sensorimotor cortex are thought to reflect mirror neuron activity, one method for testing the integrity of this system is to measure mu responsiveness to actual and observed movement. It has been established that mu power is reduced (mu suppression) in typically developing individuals both when they perform actions and when they observe others performing actions, reflecting an observation/execution system which may play a critical role in the ability to understand and imitate others' behaviors. This study investigated whether individuals with ASD show a dysfunction in this system, given their behavioral impairments in understanding and responding appropriately to others' behaviors. Mu wave suppression was measured in ten high-functioning individuals with ASD and ten age- and gender-matched control subjects while watching videos of (1) a moving hand, (2) a bouncing ball, and (3) visual noise, or (4) moving their own hand. Control subjects showed significant mu suppression to both self and observed hand movement. The ASD group showed significant mu suppression to self-performed hand movements but not to observed hand movements. These results support the hypothesis of a dysfunctional mirror neuron system in high-functioning individuals with ASD.

Citing Articles

Data for rating the perception of biological and intentional motion stimuli: Perceptual validation pilot study.

Dastgheib S, Breier C, Schweinberger S Data Brief. 2025; 55:110696.

PMID: 39958941 PMC: 11827097. DOI: 10.1016/j.dib.2024.110696.

Physiological Entrainment: A Key Mind-Body Mechanism for Cognitive, Motor and Affective Functioning, and Well-Being.

Barbaresi M, Nardo D, Fagioli S Brain Sci. 2025; 15(1).

PMID: 39851371 PMC: 11763407. DOI: 10.3390/brainsci15010003.

Effects of Extremely Low-Frequency Electromagnetic Field Treatment on ASD Symptoms in Children: A Pilot Study.

Pietramala K, Greco A, Garoli A, Roblin D Brain Sci. 2025; 14(12.

PMID: 39766492 PMC: 11675033. DOI: 10.3390/brainsci14121293.

Enhancing Autism Detection Through Gaze Analysis Using Eye Tracking Sensors and Data Attribution with Distillation in Deep Neural Networks.

Colonnese F, Di Luzio F, Rosato A, Panella M Sensors (Basel). 2024; 24(23).

PMID: 39686328 PMC: 11645092. DOI: 10.3390/s24237792.

Exploring divergent kinematics in autism across social and non-social vitality forms.

Di Cesare G, Bruschetta R, Vitale A, Pelosi A, Leonardi E, Fama F Sci Rep. 2024; 14(1):24164.

PMID: 39406922 PMC: 11480377. DOI: 10.1038/s41598-024-74232-8.