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Literature DB >> 30702190

Frequency of alpha oscillation predicts individual differences in perceptual stability during binocular rivalry.

Sucharit Katyal¹, Sheng He¹, Bin He², Stephen A Engel¹.

Abstract

When ambiguous visual stimuli have multiple interpretations, human perception can alternate between them, producing perceptual multistability. There is a large variation between individuals in how long stable percepts endure, on average, between switches, but the underlying neural basis of this individual difference in perceptual dynamics remains obscure. Here, we show that in one widely studied multistable paradigm-binocular rivalry-perceptual stability in individuals is predicted by the frequency of their neural oscillations within the alpha range (7-13 Hz). Our results suggest revising models of rivalry to incorporate effects of neural oscillations on perceptual alternations, and raise the possibility that a common factor may influence dynamics in many neural processes.

Entities: Species

Keywords: bistable perception; cognitive dynamics; electroencephalography; peak alpha frequency; visual perception

Mesh：

Year: 2019 PMID： 30702190 PMCID： PMC6865672 DOI： 10.1002/hbm.24533

Source DB: PubMed Journal: Hum Brain Mapp ISSN： 1065-9471 Impact factor: 5.038

89 in total

Frequency of alpha oscillation predicts individual differences in perceptual stability during binocular rivalry.

Review 1. EEG alpha and theta oscillations reflect cognitive and memory performance: a review and analysis.

2. Age-Related Changes in 1/f Neural Electrophysiological Noise.

3. Enhancement of bistable perception associated with visual stimulus rivalry.

4. Altered short-term neural plasticity related to schizotypal traits: Evidence from visual adaptation.

5. Normal binocular rivalry in autism: implications for the excitation/inhibition imbalance hypothesis.

6. Further evidence for slow binocular rivalry rate as a trait marker for bipolar disorder.

7. Human parietal cortex structure predicts individual differences in perceptual rivalry.

8. Increased readiness for adaptation and faster alternation rates under binocular rivalry in children.

9. Activity in early visual areas predicts interindividual differences in binocular rivalry dynamics.

10. The Independent and Shared Mechanisms of Intrinsic Brain Dynamics: Insights From Bistable Perception.

1. Frequency of alpha oscillation predicts individual differences in perceptual stability during binocular rivalry.

2. Altered alpha and theta oscillations correlate with sequential working memory in Parkinson's disease.

3. Evidence for neural rhythms embedded within binocular rivalry.

4. Neural oscillations promoting perceptual stability and perceptual memory during bistable perception.

5. Exploring the Common Mechanisms of Motion-Based Visual Prediction.