Increases in Alpha Oscillatory Power Reflect an Active Retinotopic Mechanism for Distracter Suppression During Sustained Visuospatial Attention
St. Vincent's University Hospital · University College Dublin · +4 more institutions
Abstract
Human electrophysiological (EEG) studies have demonstrated the involvement of alpha band (8- to 14-Hz) oscillations in the anticipatory biasing of attention. In the context of visual spatial attention within bilateral stimulus arrays, alpha has exhibited greater amplitude over parietooccipital cortex contralateral to the hemifield required to be ignored, relative to that measured when the same hemifield is to be attended. Whether this differential effect arises solely from alpha desynchronization (decreases) over the "attending" hemisphere, from synchronization (increases) over the "ignoring" hemisphere, or both, has not been fully resolved. This is because of the confounding effect of externally evoked…
Citation impact
- FWCI
- 6.24
- Percentile
- 100%
- References
- 50
Authors
4- SPSimon P. KellyCorresponding
St. Vincent's University Hospital
- ECEdmund C. Lalor
University College Dublin, St. Vincent's Birmingham, St Vincent's Hospital Melbourne, Saint Vincent's Catholic Medical Center, The Catholic University of Korea St. Vincent's Hospital
- RBRichard B. Reilly
University College Dublin, St. Vincent's Birmingham, St Vincent's Hospital Melbourne, Saint Vincent's Catholic Medical Center, The Catholic University of Korea St. Vincent's Hospital
- JJJohn J. Foxe
Topics & keywords
- Psychology
- Cued speech
- Stimulus (psychology)
- Neuroscience
- Photic Stimulation
- Audiology
- Visual cortex
- Electroencephalography