Musical training intensity yields opposite effects on grey matter density in cognitive versus sensorimotor networks

James, Clara E.; Oechslin, Mathias S.; Ville, Dimitri Van De; Hauert, Claude-Alain; Descloux, Céline; Lazeyras, François

doi:10.1007/s00429-013-0504-z

Cited by 166 publications

(150 citation statements)

References 87 publications

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“…However, it is consistent with studies reporting reduced structural and functional contributions to performance in expert musician and dancer populations (Granert et al, 2011;James et al, 2013;Jäncke et al, 2000;Krings et al, 2000;Nigmatullina et al, 2013). This differential impact of early training and experience on brain structure in specific cerebellar lobules may be accounted for by the role of these lobules in sensorimotor tasks and the effects of expertise in automating such tasks, lessening the need to process sensory feedback, as suggested by James et al (2013) in explaining their findings of musicians' greater versus lesser gray matter density in cognitive versus sensorimotor areas.…”

Section: Discussionsupporting

confidence: 90%

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Regional cerebellar volumes are related to early musical training and finger tapping performance

et al. 2015

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Section: Discussionsupporting

confidence: 90%

“…Filled diamonds and squares represent subgroup means. the suggestion that decreases could be related to more efficient motor control processes that may require fewer neurons and less sensory feedback (James et al, 2013). Similar factors may be responsible for the volume decreases observed here.…”

Section: Discussionsupporting

confidence: 71%

Regional cerebellar volumes are related to early musical training and finger tapping performance

et al. 2015

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“…The changes in the caudate nucleus may be due to increased efficiency in juggling the lexico-semantic sets of two languages required for the execution of simultaneous interpretation. Our findings add weight to the notion that the right striatum occupies a key position in evolving expert performance, as has previously been shown in professional musicians (James et al, 2013), chess players (Haslinger et al, 2004), athletes (Duan et al, 2012) and here, in simultaneous interpreters. This notion is compatible with the wideranging roles of the basal ganglia, which include cognitive pattern generation (Milton et al, 2007;Yarrow et al, 2009), action pattern selection and refinement (Graybiel, 1997), and prediction (Houk et al, 2007), and in learning, memory and motivation more generally.…”

Section: Discussionsupporting

confidence: 88%

“…They conclude that this reflects a change to an invariant component of the motor planning network that differs between the two levels of expertise. Expertise-related structural changes have also been reported: expert musicians exhibit decreased gray-matter density in the right caudate as a function of musical expertise (James et al, 2013), and expert interpreters similarly show decreased gray-matter density in the caudate nuclei bilaterally as a function of cumulative expertise (Elmer et al, 2014). The intersection of these disparate domains of expertise in the right striatum suggests that decreased caudate engagement may be a cerebral hallmark of expert performance.…”

Section: The Role Of the Caudate Nucleus In Expertisementioning

confidence: 93%

Brain functional plasticity associated with the emergence of expertise in extreme language control

2015

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We used functional magnetic resonance imaging (fMRI) to longitudinally examine brain plasticity arising from long-term, intensive simultaneous interpretation training. Simultaneous interpretation is a bilingual task with heavy executive control demands. We compared brain responses observed during simultaneous interpretation with those observed during simultaneous speech repetition (shadowing) in a group of trainee simultaneous interpreters, at the beginning and at the end of their professional training program. Age, sex and languageproficiency matched controls were scanned at similar intervals. Using multivariate pattern classification, we found distributed patterns of changes in functional responses from the first to second scan that distinguished the interpreters from the controls. We also found reduced recruitment of the right caudate nucleus during simultaneous interpretation as a result of training. Such practice-related change is consistent with decreased demands on multilingual language control as the task becomes more automatized with practice. These results demonstrate the impact of simultaneous interpretation training on the brain functional response in a cerebral structure that is not specifically linguistic, but that is known to be involved in learning, in motor control, and in a variety of domain-general executive functions. Along with results of recent studies showing functional and structural adaptations in the caudate nuclei of experts in a broad range of domains, our results underline the importance of this structure as a central node in expertise-related networks.

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“…However, such plastic changes are often not restricted to single brain compartments, but rather affect a vast amount of cortical tissue (James et al, 2013;Zou et al, 2012;Bermudez et al, 2009;Abutalebi & Green, 2007;Gaser & Schlaug, 2003a, 2003b. This phenomenon probably accounts for the often observed cognitive advantages of music and language experts in a variety of cognitive domains, including verbal learning (Bradley, King, & Hernandez, 2013;Kuhnis, Elmer, Meyer, & Jancke, 2013), memory (Morales, Calvo, & Bialystok, 2013;Kraus, Strait, & Parbery-Clark, 2012;Schulze, Zysset, Mueller, Friederici, & Koelsch, 2011), attention (Strait, Kraus, Parbery-Clark, & Ashley, 2010;Costa, Hernandez, & Sebastian-Galles, 2008;Bialystok, Craik, Klein, & Viswanathan, 2004), and inhibition (Festman, Rodriguez-Fornells, & Munte, 2010;Bialystok et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

Music and Language Expertise Influence the Categorization of Speech and Musical Sounds: Behavioral and Electrophysiological Measurements

Elmer

Klein

Kühnis

et al. 2014

Journal of Cognitive Neuroscience

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In this study, we used high-density EEG to evaluate whether speech and music expertise has an influence on the categorization of expertise-related and unrelated sounds. With this purpose in mind, we compared the categorization of speech, music, and neutral sounds between professional musicians, simultaneous interpreters (SIs), and controls in response to morphed speech-noise, music-noise, and speech-music continua. Our hypothesis was that music and language expertise will strengthen the memory representations of prototypical sounds, which act as a perceptual magnet for morphed variants. This means that the prototype would "attract" variants. This so-called magnet effect should be manifested by an increased assignment of morphed items to the trained category by a reduced maximal slope of the psychometric function as well as by differential event-related brain responses reflecting memory comparison processes (i.e., N400 and P600 responses). As a main result, we provide first evidence for a domain-specific behavioral bias of musicians and SIs toward the trained categories, namely music and speech. In addition, SIs showed a bias toward musical items, indicating that interpreting training has a generic influence on the cognitive representation of spectrotemporal signals with similar acoustic properties to speech sounds. Notably, EEG measurements revealed clear distinct N400 and P600 responses to both prototypical and ambiguous items between the three groups at anterior, central, and posterior scalp sites. These differential N400 and P600 responses represent synchronous activity occurring across widely distributed brain networks and indicate a dynamical recruitment of memory processes that vary as a function of training and expertise. Abstract ■ In this study, we used high-density EEG to evaluate whether speech and music expertise has an influence on the categorization of expertise-related and unrelated sounds. With this purpose in mind, we compared the categorization of speech, music, and neutral sounds between professional musicians, simultaneous interpreters (SIs), and controls in response to morphed speechnoise, music-noise, and speech-music continua. Our hypothesis was that music and language expertise will strengthen the memory representations of prototypical sounds, which act as a perceptual magnet for morphed variants. This means that the prototype would "attract" variants. This so-called magnet effect should be manifested by an increased assignment of morphed items to the trained category by a reduced maximal slope of the psychometric function as well as by differential event-related brain responses reflecting memory comparison processes (i.e., N400 and P600 responses). As a main result, we provide first evidence for a domain-specific behavioral bias of musicians and SIs toward the trained categories, namely music and speech. In addition, SIs showed a bias toward musical items, indicating that interpreting training has a generic influence on the cognitive representation of spectrotemporal signals w...

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Musical training intensity yields opposite effects on grey matter density in cognitive versus sensorimotor networks

Cited by 166 publications

References 87 publications

Regional cerebellar volumes are related to early musical training and finger tapping performance

Regional cerebellar volumes are related to early musical training and finger tapping performance

Brain functional plasticity associated with the emergence of expertise in extreme language control

Music and Language Expertise Influence the Categorization of Speech and Musical Sounds: Behavioral and Electrophysiological Measurements

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