The phase of pre‐stimulus brain oscillations correlates with cross‐modal synchrony perception

Ikumi, Nara; Torralba, Mireia; Ruzzoli, Manuela; Soto‐Faraco, Salvador

doi:10.1111/ejn.14186

Cited by 19 publications

(24 citation statements)

References 64 publications

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“…One recent study by Benedetto et al (2018) further shows that audio-visual temporal order judgments (TOJs) undergo rhythmic fluctuations (at around 7-8 Hz) time-locked to a button press action (figure 4). The modulation does not affect temporal sensitivity (precision of the judgements) but the temporal bias, i.e., whether the visual stimulus is perceived ahead or behind of the auditory stimulus (in line with the neuronal phase effects on audio-visual perceived simultaneity reported by Ikumi et al, 2018;and Kösem et al, 2014). This suggests that processing resources and\or speed may rhythmically alternate between the visual and the auditory modality and this alternation may be temporally synchronized to the ongoing motor processing.…”

Section: Multiple Clocks One Time?mentioning

confidence: 51%

The Common Rhythm of Action and Perception

Benedetto

Morrone

Tomassini

2020

Journal of Cognitive Neuroscience

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Research in the last decade has undermined the idea of perception as a continuous process, providing strong empirical support for its rhythmic modulation. More recently, it has been revealed that the ongoing motor processes influence the rhythmic sampling of sensory information. In this review, we will focus on a growing body of evidence suggesting that oscillation-based mechanisms may structure the dynamic interplay between the motor and sensory system and provide a unified temporal frame for their effective coordination. We will describe neurophysiological data, primarily collected in animals, showing phase-locking of neuronal oscillations to the onset of (eye) movements. These data are complemented by novel evidence in humans, which demonstrate the behavioral relevance of these oscillatory modulations and their domain-general nature. Finally, we will discuss the possible implications of these modulations for action–perception coupling mechanisms.

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Section: Multiple Clocks One Time?mentioning

confidence: 51%

The Common Rhythm of Action and Perception

Benedetto

Morrone

Tomassini

2020

Journal of Cognitive Neuroscience

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“…Interestingly, the optimal delay between flashes is correlated with the subject-specific impulse response frequency, pointing to a contribution of oscillatory reverberation to illusory visual perception. Similarly, the phase of ongoing alpha band oscillations influences crossmodal synchrony perception 24 . A phase reset of ongoing slow oscillations in unisensory areas is a likely mechanism for the modulation of activity following heteromodal input 13,25,26 .…”

Section: Discussionmentioning

confidence: 99%

Single trial prestimulus oscillations predict perception of the sound-induced flash illusion

Kaiser

Senkowski

Busch

et al. 2019

Sci Rep

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In the sound-induced flash illusion, auditory input affects the perception of visual stimuli with a large inter- and intraindividual variability. Crossmodal influence in this illusion has been shown to be associated with activity in visual and temporal areas. In this electroencephalography study, we investigated the relationship between oscillatory brain activity prior to stimulus presentation and subsequent perception of the illusion on the level of single trials. Using logistic regression, we modeled the perceptual outcome dependent on oscillatory power. We found that 25 Hz to 41 Hz activity over occipital electrodes from 0.17 s to 0.05 s prior to stimulus onset predicted the perception of the illusion. A t-test of power values, averaged over the significant cluster, between illusion and no-illusion trials showed higher power in illusion trials, corroborating the modeling result. We conclude that the observed power modulation predisposes the integration of audiovisual signals, providing further evidence for the governing role of prestimulus brain oscillations in multisensory perception.

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“…While the ERP signals recorded before the onset of stimuli have traditionally been considered as "baseline" and not included in data analysis, there is emerging evidence to suggest that there are functional implications for pre-stimulus activity (Falkenstein, Hoormann, Christ, & Hohnsbein, 2000;Lazzaro, Gordon, Whitmont, Meares, & Clarke, 2001). The inter-trial variability of the pre-stimulus activity has been repeatedly been reported as being related to one's cognitive states (Bode et al, 2012;Ikumi, Torralba, Ruzzoli, & Soto-Faraco, 2019;Lou, Li, Philiastides, & Sajda, 2014;Polich & Kok, 1995). As the mean amplitude of the pre-stimulus period was subtracted before the analysis, our results suggest a possible contribution from the fluctuation of the baseline activity rather than its absolute amplitude.…”

Section: Discussionmentioning

confidence: 99%

Quantitative Personality Predictions From a Brief EEG Recording

et al. 2022

IEEE Trans. Affective Comput.

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The assessment of personality is crucial not only for scientific inquiries but also for real-world applications such as personnel selection. However, most existing ways to quantify personality traits rely on self-reported scales, which are susceptible to biases such as self-presentational concerns. In this study, we propose and evaluate a novel implicit measure of personality that uses machine learning (ML) algorithms to predict an individual's levels in the Big Five personality traits from 5 minutes of electroencephalography (EEG) recordings. Results from a large test sample of 196 volunteers indicated that the personality scores derived from the proposed measure converged significantly with a commonly used questionnaire, predicted behavioral indices and psychological adjustment in a manner similar to self-reported scores, and were relatively stable across time. These evaluations suggest that the proposed measure can serve as a viable alternative to conventional personality questionnaires in practice.

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The phase of pre‐stimulus brain oscillations correlates with cross‐modal synchrony perception

Cited by 19 publications

References 64 publications

The Common Rhythm of Action and Perception

The Common Rhythm of Action and Perception

Single trial prestimulus oscillations predict perception of the sound-induced flash illusion

Quantitative Personality Predictions From a Brief EEG Recording

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