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      Neural overlap in processing music and speech

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          Abstract

          Neural overlap in processing music and speech, as measured by the co-activation of brain regions in neuroimaging studies, may suggest that parts of the neural circuitries established for language may have been recycled during evolution for musicality, or vice versa that musicality served as a springboard for language emergence. Such a perspective has important implications for several topics of general interest besides evolutionary origins. For instance, neural overlap is an important premise for the possibility of music training to influence language acquisition and literacy. However, neural overlap in processing music and speech does not entail sharing neural circuitries. Neural separability between music and speech may occur in overlapping brain regions. In this paper, we review the evidence and outline the issues faced in interpreting such neural data, and argue that converging evidence from several methodologies is needed before neural overlap is taken as evidence of sharing.

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          Repetition and the brain: neural models of stimulus-specific effects.

          Kalanit Grill-Spector, Richard Henson, Alex Martin (2006)
          One of the most robust experience-related cortical dynamics is reduced neural activity when stimuli are repeated. This reduction has been linked to performance improvements due to repetition and also used to probe functional characteristics of neural populations. However, the underlying neural mechanisms are as yet unknown. Here, we consider three models that have been proposed to account for repetition-related reductions in neural activity, and evaluate them in terms of their ability to account for the main properties of this phenomenon as measured with single-cell recordings and neuroimaging techniques. We also discuss future directions for distinguishing between these models, which will be important for understanding the neural consequences of repetition and for interpreting repetition-related effects in neuroimaging data.
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            The mirror-neuron system.

            Giacomo Rizzolatti, Laila Craighero (2004)
            A category of stimuli of great importance for primates, humans in particular, is that formed by actions done by other individuals. If we want to survive, we must understand the actions of others. Furthermore, without action understanding, social organization is impossible. In the case of humans, there is another faculty that depends on the observation of others' actions: imitation learning. Unlike most species, we are able to learn by imitation, and this faculty is at the basis of human culture. In this review we present data on a neurophysiological mechanism--the mirror-neuron mechanism--that appears to play a fundamental role in both action understanding and imitation. We describe first the functional properties of mirror neurons in monkeys. We review next the characteristics of the mirror-neuron system in humans. We stress, in particular, those properties specific to the human mirror-neuron system that might explain the human capacity to learn by imitation. We conclude by discussing the relationship between the mirror-neuron system and language.
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              Network hubs in the human brain.

              P Martijn den Reijer, Olaf Sporns, Martijn van den Heuvel (2014)
              Virtually all domains of cognitive function require the integration of distributed neural activity. Network analysis of human brain connectivity has consistently identified sets of regions that are critically important for enabling efficient neuronal signaling and communication. The central embedding of these candidate 'brain hubs' in anatomical networks supports their diverse functional roles across a broad range of cognitive tasks and widespread dynamic coupling within and across functional networks. The high level of centrality of brain hubs also renders them points of vulnerability that are susceptible to disconnection and dysfunction in brain disorders. Combining data from numerous empirical and computational studies, network approaches strongly suggest that brain hubs play important roles in information integration underpinning numerous aspects of complex cognitive function. Copyright © 2013 Elsevier Ltd. All rights reserved.
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                Author and article information

                Journal
                Title: Philosophical Transactions of the Royal Society B: Biological Sciences
                Abbreviated Title: Phil. Trans. R. Soc. B
                Publisher: The Royal Society
                ISSN (Print): 0962-8436
                ISSN (Electronic): 1471-2970
                Publication date Created: March 19 2015
                Publication date (Electronic): March 19 2015
                Publication date (Print): March 19 2015
                Volume: 370
                Issue: 1664
                Page: 20140090
                Affiliations
                [1 ]International Laboratory of Brain, Music and Sound Research (BRAMS), and Center for Research on Brain, Language and Music (CRBLM), University of Montreal, Montreal, Quebec, Canada
                [2 ]Department of Psychology, University of Montreal, Montreal, Quebec, Canada
                [3 ]Department of Psychiatry, McGill University and Douglas Mental Health University Institute, Montreal, Quebec, Canada
                Article
                DOI: 10.1098/rstb.2014.0090
                PMC ID: 4321131
                PubMed ID: 25646513
                SO-VID: 378dfe9a-683d-4d4a-b2ef-bbafcee194e0
                Copyright © © 2015
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                https://royalsociety.org/journals/ethics-policies/data-sharing-mining/

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