While the human insula is known to be involved in auditory processing, knowledge about its precise functional role and the underlying electrophysiology is limited. To assess its role in automatic auditory deviance detection we analyzed the high frequency EEG activity (75-145 Hz) from 90 intracranial insular electrodes across 16 patients who were candidates for resective epilepsy surgery while they passively listened to a stream of standard and deviant tones. Deviant and standard tones differed in four physical dimensions: intensity, frequency, location and time. Auditory responses were found in the short and long gyri, and the anterior, superior, and inferior segments of the circular sulcus of the insular cortex, but only a subset of electrodes in the inferior segment showed deviance detection responses, i.e. a greater and later response to deviants relative to standards. Altogether, our results indicate that the human insula is engaged during auditory deviance detection.
Humans constantly predict their environment to facilitate mutual interaction. Predictions are connected with emotions as nonfatal penalties and rewards (for incorrect and correct expectancies, respectively) that result in negative and positive emotions. Music is an ideal stimulus to explore the underlying neurophysiological mechanisms of prediction related emotions. Using the high spatial and temporal resolution of stereotactic depth electrodes, we identified activation patterns and examined their distribution in the bilateral Amygdalae and the orbitofrontal cortex (OFC). We used music excerpts with either (a) a deceptive cadence (i.e., an unexpected chord/breach) or (b) a tonic chord inserted instead of a deceptive cadence (regular chord/no breach). These events were followed by a chord progression leading to and ending on the tonic after a breach (c) or (d) on a tonic after no breach. We computed the differences of the analytic amplitudes in the theta band at these time-points (i.e., events a–d) by using t tests. We found a significant difference between the unexpected chord (a) and the expected chord (b) in the analytic amplitude of the theta band in the left amygdala. Further we found a difference between the 2 resolutions (c and d) in the analytic amplitude of the theta band within the OFC. In conclusion, our case study supports the notion that the amygdala and the OFC are important for emotional responses to musical expectancy breaches as well as of their resolution.
Llorens et al. WM Preservation After OFC Damage maintenance of letters in WM, the evaluation of the context of the probe, and the decision to accept or reject a probed letter were preserved in OFC patients. The results suggest that neural reorganization may contribute to intact recency judgment and response after OFC damage.
While the human insula is known to be involved in auditory processing, knowledge about its precise functional role and the underlying electrophysiology is limited. To assess its role in automatic auditory deviance detection we analyzed the high frequency EEG activity (75-145 Hz) from 90 intracranial insular electrodes across 16 patients who were candidates for resective epilepsy surgery while they passively listened to a stream of standard and deviant tones. Deviant and standard tones differed in four physical dimensions: intensity, frequency, location and time. Auditory responses were found in the short and long gyri, and the anterior, superior, and inferior segments of the circular sulcus of the insular cortex, but only a subset of electrodes in the inferior segment showed deviance detection responses, i.e. a greater and later response to deviants relative to standards. Altogether, our results indicate that the human insula is engaged during auditory deviance detection.
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