Neural evidence accounting for interindividual variability of the McGurk illusion.

The McGurk illusion is experienced to various degrees among the general population. Previous studies have implicated the left superior temporal sulcus (STS) and auditory cortex (AC) as regions associated with this interindividual variability. We sought to further investigate the neurophysiology underlying this variability using a variant of the McGurk illusion design. Electroencephalography (EEG) was recorded while human subjects were presented with videos of a speaker uttering the consonant-vowels (CVs) /ba/ and /fa/, which were mixed and matched with audio of /ba/ and /fa/ to produce congruent and incongruent conditions. Subjects were also presented with unimodal stimuli of silent videos and audios of the CVs. They responded to whether they heard (or saw in the silent condition) /ba/ or /fa/. An illusion during the incongruent conditions was deemed successful when individuals heard the syllable conveyed by mouth movements. We hypothesized that individuals who experience the illusion more strongly should exhibit more robust desynchronization of alpha (7-12 Hz) at fronto-central and temporal sites, emphasizing more engagement of neural generators at the AC and STS. We found, however, that compared to weaker illusion perceivers, stronger illusion perceivers exhibited greater alpha synchronization at fronto-central and posterior temporal sites, which is consistent with inhibition of auditory representations. These findings suggest that stronger McGurk illusion perceivers possess more robust cross-modal sensory gating mechanisms whereby phonetic representations not conveyed by the visual system are inhibited, and in turn reinforcing perception of the visually targeted phonemes.