77 research outputs found

    Différenciation hémisphérique auditive par analyse de potentiels évoqués auditifs

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    - Par opposition aux études subjectives adressant le problème de la spécialisation hémisphérique auditive, le but de ce travail est de proposer des mesures objectives permettant de différencier le comportement des deux hémisphères vis-à-vis des stimuli. Pour ce faire, nous disposons de signaux intracérébraux enregistrés en réponse à divers stimuli. Ce papier ne traite que des réponses aux sons verbaux voisé /ba/, non voisé /pa/ et à la voyelle /a/ et présente trois méthodes. La première calcule le coefficient de corrélation entre les réponses à deux stimuli, recueillies sur le même plot. La seconde porte sur l'évolution de la corrélation au cours du temps. Sur les valeurs de corrélation obtenues est effectuée une analyse factorielle des correspondances (AFC) suivie d'une classification hiérarchique ascendante appliquée sur les facteurs de l'AFC. Finalement, les réponses sont caractérisées selon le nombre d'extrema en fonction de l'hémisphère et du stimulus considérés. Les trois méthodes permettent de mettre en avant certains paramètres révélateurs de différence de comportement des deux hémisphères

    Étude et analyse statistique de potentiels évoqués auditifs sous l'influence de radiofréquences

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    Ce papier traite de l'étude de l'influence des champs radioélectriques émis par les téléphones portables sur l'activité cérébrale humaine. Notre travail est réalisé sur le système auditif à partir du recueil de Potentiels Evoqués Auditifs (PEA) à la surface du scalp. Le protocole permet de comparer les PEA enregistrés avec ou sans exposition aux radiofréquences. Les stimuli sont deux sons purs et un système permet de contrôler la puissance des radiofréquences émises. Pour obtenir une référence et tenir compte de la fatigue, l'effet placebo est également considéré. Notre étude consiste à mettre en oeuvre des mesures fiables qui soient révélatrices de certains changements ou de certaines constances dans les signaux enregistrés. Elles concernent ici les corrélations calculées entre signaux moyens, les amplitudes de l'onde N100, ainsi que les corrélations entre ces amplitudes. La comparaison des corrélations calculées entre signaux recueillis avec et sans exposition aux radiofréquences fait apparaître une différence. Un point important de cette étude concerne le rôle de l'effet de fatigue dans l'analyse des PEA

    Leftward Lateralization of Auditory Cortex Underlies Holistic Sound Perception in Williams Syndrome

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    BACKGROUND: Individuals with the rare genetic disorder Williams-Beuren syndrome (WS) are known for their characteristic auditory phenotype including strong affinity to music and sounds. In this work we attempted to pinpoint a neural substrate for the characteristic musicality in WS individuals by studying the structure-function relationship of their auditory cortex. Since WS subjects had only minor musical training due to psychomotor constraints we hypothesized that any changes compared to the control group would reflect the contribution of genetic factors to auditory processing and musicality. METHODOLOGY/PRINCIPAL FINDINGS: Using psychoacoustics, magnetoencephalography and magnetic resonance imaging, we show that WS individuals exhibit extreme and almost exclusive holistic sound perception, which stands in marked contrast to the even distribution of this trait in the general population. Functionally, this was reflected by increased amplitudes of left auditory evoked fields. On the structural level, volume of the left auditory cortex was 2.2-fold increased in WS subjects as compared to control subjects. Equivalent volumes of the auditory cortex have been previously reported for professional musicians. CONCLUSIONS/SIGNIFICANCE: There has been an ongoing debate in the neuroscience community as to whether increased gray matter of the auditory cortex in musicians is attributable to the amount of training or innate disposition. In this study musical education of WS subjects was negligible and control subjects were carefully matched for this parameter. Therefore our results not only unravel the neural substrate for this particular auditory phenotype, but in addition propose WS as a unique genetic model for training-independent auditory system properties

    Individual Differences in Sound-in-Noise Perception Are Related to the Strength of Short-Latency Neural Responses to Noise

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    Important sounds can be easily missed or misidentified in the presence of extraneous noise. We describe an auditory illusion in which a continuous ongoing tone becomes inaudible during a brief, non-masking noise burst more than one octave away, which is unexpected given the frequency resolution of human hearing. Participants strongly susceptible to this illusory discontinuity did not perceive illusory auditory continuity (in which a sound subjectively continues during a burst of masking noise) when the noises were short, yet did so at longer noise durations. Participants who were not prone to illusory discontinuity showed robust early electroencephalographic responses at 40–66 ms after noise burst onset, whereas those prone to the illusion lacked these early responses. These data suggest that short-latency neural responses to auditory scene components reflect subsequent individual differences in the parsing of auditory scenes

    Electrophysiological evidence for an early processing of human voices

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    <p>Abstract</p> <p>Background</p> <p>Previous electrophysiological studies have identified a "voice specific response" (VSR) peaking around 320 ms after stimulus onset, a latency markedly longer than the 70 ms needed to discriminate living from non-living sound sources and the 150 ms to 200 ms needed for the processing of voice paralinguistic qualities. In the present study, we investigated whether an early electrophysiological difference between voice and non-voice stimuli could be observed.</p> <p>Results</p> <p>ERPs were recorded from 32 healthy volunteers who listened to 200 ms long stimuli from three sound categories - voices, bird songs and environmental sounds - whilst performing a pure-tone detection task. ERP analyses revealed voice/non-voice amplitude differences emerging as early as 164 ms post stimulus onset and peaking around 200 ms on fronto-temporal (positivity) and occipital (negativity) electrodes.</p> <p>Conclusion</p> <p>Our electrophysiological results suggest a rapid brain discrimination of sounds of voice, termed the "fronto-temporal positivity to voices" (FTPV), at latencies comparable to the well-known face-preferential N170.</p

    A Blueprint for Real-Time Functional Mapping via Human Intracranial Recordings

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    International audienceBACKGROUND: The surgical treatment of patients with intractable epilepsy is preceded by a pre-surgical evaluation period during which intracranial EEG recordings are performed to identify the epileptogenic network and provide a functional map of eloquent cerebral areas that need to be spared to minimize the risk of post-operative deficits. A growing body of research based on such invasive recordings indicates that cortical oscillations at various frequencies, especially in the gamma range (40 to 150 Hz), can provide efficient markers of task-related neural network activity. PRINCIPAL FINDINGS: Here we introduce a novel real-time investigation framework for mapping human brain functions based on online visualization of the spectral power of the ongoing intracranial activity. The results obtained with the first two implanted epilepsy patients who used the proposed online system illustrate its feasibility and utility both for clinical applications, as a complementary tool to electrical stimulation for presurgical mapping purposes, and for basic research, as an exploratory tool used to detect correlations between behavior and oscillatory power modulations. Furthermore, our findings suggest a putative role for high gamma oscillations in higher-order auditory processing involved in speech and music perception. CONCLUSION/SIGNIFICANCE: The proposed real-time setup is a promising tool for presurgical mapping, the investigation of functional brain dynamics, and possibly for neurofeedback training and brain computer interfaces
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