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Decoding Trans-Saccadic Prediction Error.

Louise Catheryne Barne1,2, Jonathan Giordano3, Thérèse Collins3

  • 1Département Traitement de l'Information et Systèmes, Office National d'Études et de Recherches Aérospatiales, Salon-de-Provence 13661, France louisec.barne@gmail.com.

The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
|February 9, 2023
PubMed
Summary
This summary is machine-generated.

Visual stability during eye movements (saccades) is maintained by suppressing perceived displacement. However, brain signals reveal that displacement information is processed for oculomotor adjustment, even when not consciously perceived.

Keywords:
EEGdecodingsaccadic suppression of displacementtrans-saccadic error

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Area of Science:

  • Neuroscience
  • Cognitive Science
  • Visual Perception

Background:

  • Our subjective visual experience remains stable despite constant eye movements (saccades).
  • Saccadic suppression of displacement often prevents us from noticing stimulus shifts during or after saccades.
  • Saccadic adaptation demonstrates that the oculomotor system corrects for prediction errors, even when displacements are not consciously perceived.

Purpose of the Study:

  • To identify a neural signature of trans-saccadic prediction error.
  • To determine if this signal informs the motor system independently of explicit perception.
  • To investigate the early visual processing of displacement information during saccades.

Main Methods:

  • Participants performed saccades while viewing visual targets.
  • Electroencephalography (EEG) was recorded during the task.
  • Multivariate pattern analysis (MVPA) was used to analyze EEG data for displacement detection.

Main Results:

  • MVPA successfully differentiated between visual target displacements and non-displacements in EEG data.
  • This neural representation of trans-saccadic prediction error emerged approximately 100 ms after displacement.
  • The signal was primarily observed in occipital and parieto-occipital EEG channels.
  • The brain signal was present even when participants did not consciously perceive the displacement.

Conclusions:

  • Trans-saccadic prediction error is neurally represented in early visual processing stages.
  • This neural signal is computed and utilized for oculomotor adjustments, despite not reaching conscious perception.
  • This finding provides insight into the mechanisms underlying visual stability during saccadic eye movements.