Seung‐Goo Kim scite author profile

BackgroundRecent electrophysiological and neuroimaging studies have explored how and where musical syntax in Western music is processed in the human brain. An inappropriate chord progression elicits an event-related potential (ERP) component called an early right anterior negativity (ERAN) or simply an early anterior negativity (EAN) in an early stage of processing the musical syntax. Though the possible underlying mechanism of the EAN is assumed to be probabilistic learning, the effect of the probability of chord progressions on the EAN response has not been previously explored explicitly.Methodology/Principal FindingsIn the present study, the empirical conditional probabilities in a Western music corpus were employed as an approximation of the frequencies in previous exposure of participants. Three types of chord progression were presented to musicians and non-musicians in order to examine the correlation between the probability of chord progression and the neuromagnetic response using magnetoencephalography (MEG). Chord progressions were found to elicit early responses in a negatively correlating fashion with the conditional probability. Observed EANm (as a magnetic counterpart of the EAN component) responses were consistent with the previously reported EAN responses in terms of latency and location. The effect of conditional probability interacted with the effect of musical training. In addition, the neural response also correlated with the behavioral measures in the non-musicians.Conclusions/SignificanceOur study is the first to reveal the correlation between the probability of chord progression and the corresponding neuromagnetic response. The current results suggest that the physiological response is a reflection of the probabilistic representations of the musical syntax. Moreover, the results indicate that the probabilistic representation is related to the musical training as well as the sensitivity of an individual.

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Fabrication and characterization of a YSZ/YDC composite electrolyte by a sol–gel coating method

Kim

Yoon²,

Nam³

et al. 2002

Journal of Power Sources

118

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Intracortical myelination in musicians with absolute pitch: Quantitative morphometry using 7‐T MRI

Kim

Knösche

2016

Human Brain Mapping

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Absolute pitch (AP) is known as the ability to recognize and label the pitch chroma of a given tone without external reference. Known brain structures and functions related to AP are mainly of macroscopic aspects. To shed light on the underlying neural mechanism of AP, we investigated the intracortical myeloarchitecture in musicians with and without AP using the quantitative mapping of the longitudinal relaxation rates with ultra‐high‐field magnetic resonance imaging at 7 T. We found greater intracortical myelination for AP musicians in the anterior region of the supratemporal plane, particularly the medial region of the right planum polare (PP). In the same region of the right PP, we also found a positive correlation with a behavioral index of AP performance. In addition, we found a positive correlation with a frequency discrimination threshold in the anterolateral Heschl's gyrus in the right hemisphere, demonstrating distinctive neural processes of absolute recognition and relative discrimination of pitch. Regarding possible effects of local myelination in the cortex and the known importance of the anterior superior temporal gyrus/sulcus for the identification of auditory objects, we argue that pitch chroma may be processed as an identifiable object property in AP musicians. Hum Brain Mapp 37:3486–3501, 2016. © 2016 Wiley Periodicals, Inc.

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Neural networks for harmonic structure in music perception and action

et al. 2016

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1The ability to predict upcoming structured events based on long-term knowledge and 2 contextual priors is a fundamental principle of human cognition. Tonal music triggers 3 predictive processes based on structural properties of harmony, i.e., regularities defining the 4 arrangement of chords into well-formed musical sequences. While the neural architecture of 5 structure-based predictions during music perception is well described, little is known about 6 the neural networks for analogous predictions in musical actions and how they relate to 7 auditory perception. To fill this gap, expert pianists were presented with harmonically 8 congruent or incongruent chord progressions, either as musical actions (photos of a hand 9 playing chords) that they were required to watch and imitate without sound, or in an auditory 10 format that they listened to without playing. By combining task-based functional magnetic 11 resonance imaging (fMRI) with functional connectivity at rest, we identified distinct sub-12 regions in right inferior frontal gyrus (rIFG) interconnected with parietal and temporal areas 13 for processing action and audio sequences, respectively. We argue that the differential 14 contribution of parietal and temporal areas is tied to motoric and auditory long-term 15 representations of harmonic regularities that dynamically interact with computations in rIFG. 16Parsing of the structural dependencies in rIFG is co-determined by both stimulus-or task-

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Brain Structural Networks Associated with Intelligence and Visuomotor Ability

Yoon

Shin

Lee

et al. 2017

Sci Rep

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Increasing evidence indicates that multiple structures in the brain are associated with intelligence and cognitive function at the network level. The association between the grey matter (GM) structural network and intelligence and cognition is not well understood. We applied a multivariate approach to identify the pattern of GM and link the structural network to intelligence and cognitive functions. Structural magnetic resonance imaging was acquired from 92 healthy individuals. Source-based morphometry analysis was applied to the imaging data to extract GM structural covariance. We assessed the intelligence, verbal fluency, processing speed, and executive functioning of the participants and further investigated the correlations of the GM structural networks with intelligence and cognitive functions. Six GM structural networks were identified. The cerebello-parietal component and the frontal component were significantly associated with intelligence. The parietal and frontal regions were each distinctively associated with intelligence by maintaining structural networks with the cerebellum and the temporal region, respectively. The cerebellar component was associated with visuomotor ability. Our results support the parieto-frontal integration theory of intelligence by demonstrating how each core region for intelligence works in concert with other regions. In addition, we revealed how the cerebellum is associated with intelligence and cognitive functions.

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Seung‐Goo Kim

The Effect of Conditional Probability of Chord Progression on Brain Response: An MEG Study

Fabrication and characterization of a YSZ/YDC composite electrolyte by a sol–gel coating method

Intracortical myelination in musicians with absolute pitch: Quantitative morphometry using 7‐T MRI

Neural networks for harmonic structure in music perception and action

Brain Structural Networks Associated with Intelligence and Visuomotor Ability

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