AI Article Synopsis
- During normal saccades, people typically do not consciously perceive motion in their visual scene due to suppression mechanisms.
- Research by Castet and Masson (2000) found that it's possible to perceive motion during saccades when using specific stimuli that activate the M-pathway.
- Our study utilized EEG and eye-tracking to show that brain areas V1-V2 and MT-V5 are involved in perceiving motion during saccades, with individual perception linked to retinal temporal frequency.
Article Abstract
Retinal motion of the visual scene is not consciously perceived during ocular saccades in normal everyday conditions. It has been suggested that extra-retinal signals actively suppress intra-saccadic motion perception to preserve stable perception of the visual world. However, using stimuli optimized to preferentially activate the M-pathway, Castet and Masson (2000) demonstrated that motion can be perceived during a saccade. Based on this psychophysical paradigm, we used electroencephalography and eye-tracking recordings to investigate the neural correlates related to the conscious perception of intra-saccadic motion. We demonstrated the effective involvement during saccades of the cortical areas V1-V2 and MT-V5, which convey motion information along the M-pathway. We also showed that individual motion perception was related to retinal temporal frequency.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8556557 | PMC |
| http://dx.doi.org/10.1167/jov.21.11.19 | DOI Listing |
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