Your search keyword '"Giraud, Anne-Lise"' showing total 3 results

1. Transitions in neural oscillations reflect prediction errors generated in audiovisual speech.

Author

Arnal, Luc H., Wyart, Valentin, and Giraud, Anne-Lise

Subjects

NEUROPHYSIOLOGY, OSCILLATING chemical reactions, CODING theory, PREDICTIVE control systems, MAGNETOENCEPHALOGRAPHY, AUDITORY perception

Abstract

According to the predictive coding theory, top-down predictions are conveyed by backward connections and prediction errors are propagated forward across the cortical hierarchy. Using MEG in humans, we show that violating multisensory predictions causes a fundamental and qualitative change in both the frequency and spatial distribution of cortical activity. When visual speech input correctly predicted auditory speech signals, a slow delta regime (3-4 Hz) developed in higher-order speech areas. In contrast, when auditory signals invalidated predictions inferred from vision, a low-beta (14-15 Hz) / high-gamma (60-80 Hz) coupling regime appeared locally in a multisensory area (area STS). This frequency shift in oscillatory responses scaled with the degree of audio-visual congruence and was accompanied by increased gamma activity in lower sensory regions. These findings are consistent with the notion that bottom-up prediction errors are communicated in predominantly high (gamma) frequency ranges, whereas top-down predictions are mediated by slower (beta) frequencies. [ABSTRACT FROM AUTHOR]

Published

2011

2. Dual Neural Routing of Visual Facilitation in Speech Processing.

Author

Arnal, Luc H., Morillon, Benjamin, Kell, Christian A., and Giraud, Anne-Lise

Subjects

SPEECH perception, AUDITORY perception, MAGNETOENCEPHALOGRAPHY, LABORATORY monkeys, HUMAN beings

Abstract

Viewing our interlocutor facilitates speech perception, unlike for instance when we telephone. Several neural routes and mechanisms could account for this phenomenon. Using magnetoencephalography, we show that when seeing the interlocutor, latencies of auditory responses (M100) are the shorter the more predictable speech is from visual input, whether the auditory signal was congruent or not. Incongruence of auditory and visual input affected auditory responses ~20 ms after latency shortening was detected, indicating that initial content-dependent auditory facilitation by vision is followed by a feedback signal that reflects the error between expected and received auditory input (prediction error). We then used functional magnetic resonance imaging and confirmed that distinct routes of visual information to auditory processing underlie these two functional mechanisms. Functional connectivity between visual motion and auditory areas depended on the degree of visual predictability, whereas connectivity between the superior temporal sulcus and both auditory and visual motion areas was driven by audiovisual (AV) incongruence. These results establish two distinct mechanisms by which the brain uses potentially predictive visual information to improve auditory perception. A fast direct corticocortical pathway conveys visual motion parameters to auditory cortex, and a slower and indirect feedback pathway signals the error between visual prediction and auditory input. [ABSTRACT FROM AUTHOR]

Published

2009

3. Evidence of a change in effectiveness of the efferent olivocochlear system in the presence of phantom auditory perception (tinnitus).

Author

Chery-Croze, Sylviane, Giraud, Anne-Lise, and Duchamp, Catherine

Subjects

*TINNITUS, *OTOACOUSTIC emissions, *AUDITORY perception

Abstract

The intervention of the medial efferent olivocochlear system in phantom auditory perception (tinnitus) mechanisms has been proposed by several authors. This study aimed to search for a change in the functioning of this system in three normal-hearing groups distinguished by the presence or absence of spontaneous otoacoustic emissions and tinnitus. The medial olivocochlear system's effect was measured by comparing transient evoked otoacoustic emission amplitudes in one ear with and without contralateral acoustic stimulation. Ipsilateral and contralateral stimulation levels were varied. Results showed that the slope of the growth of the medial olivococlear effect with contralateral sound level was reduced in the presence of tinnitus, revealing a functional correlate of this phantom perception. Several possibilities for interpreting this result are discussed. [ABSTRACT FROM AUTHOR]

Published

2000