Attenuation of visual evoked responses to hand and saccade-initiated flashes

Nathan G. Mifsud, Tom Beesley, Tamara L. Watson, Ruth B. Elijah, Tegan S. Sharp, Thomas J. Whitford

Research output: Contribution to journalArticlepeer-review

Abstract

Sensory attenuation refers to reduced brain responses to self-initiated sensations relative to those produced by the external world. It is a low-level process that may be linked to higher-level cognitive tasks such as reality monitoring. The phenomenon is often explained by prediction error mechanisms of universal applicability to sensory modality; however, it is most widely reported for auditory stimuli resulting from self-initiated hand movements. The present series of event-related potential (ERP) experiments explored the generalizability of sensory attenuation to the visual domain by exposing participants to flashes initiated by either their own button press or volitional saccade and comparing these conditions to identical, computer-initiated stimuli. The key results showed that the largest reduction of anterior visual N1 amplitude occurred for saccade-initiated flashes, while button press-initiated flashes evoked an intermediary response between the saccade-initiated and externally initiated conditions. This indicates that sensory attenuation occurs for visual stimuli and suggests that the degree of electrophysiological attenuation may relate to the causal likelihood of pairings between the type of motor action and the modality of its sensory response.
Original languageEnglish
Pages (from-to)14-22
Number of pages9
JournalCognition
Volume179
DOIs
Publication statusPublished - 2018

Keywords

  • predictive processing
  • saccadic eye movements
  • sensory attenuation

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