Musical expertise is related to altered functional connectivity during audiovisual integration

Paraskevopoulos, Evangelos; Kraneburg, Anja; Herholz, Sibylle C.; Bamidis, Panagiotis D.; Pantev, Christo

doi:10.1073/pnas.1510662112

Cited by 49 publications

(50 citation statements)

References 50 publications

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“…Furthermore, superior temporal lobe structures in musicians showed different connectivity patterns from MMT controls: Classical musicians had significant connectivity from RECN to bilateral temporal pole which was not seen in the other two groups, whereas Improvisational musicians had higher connectivity than MMT controls between vDMN seed and left temporal pole, precuneus network seed and left temporal pole, and primary visual network seed and left middle and inferior temporal gyri. The latter is consistent with magnetoencephalography work showing that musicians have more densely connected cortical network that enables audiovisual integration (Paraskevopoulos et. al., 2015).…”

Section: Differences In Resting State Connectivity Related To Generalsupporting

confidence: 89%

Improvising at Rest: Differentiating Jazz and Classical Music Training with Resting State Functional Connectivity

Belden

Zeng

Przysinda

et al. 2019

Preprint

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Jazz improvisation offers a model for creative cognition, as it involves the real-time creation of a novel, information-rich product. Previous research has shown that when musicians improvise, they recruit regions in the Default Mode Network (DMN) and Executive Control Network (ECN). Here, we ask whether these findings from task-fMRI studies might extend to intrinsic differences in resting state functional connectivity. We compared Improvising musicians, Classical musicians, and Minimally Musically Trained (MMT) controls in seed-based functional connectivity and network analyses in resting state functional MRI. We also examined the functional correlates of behavioral performance in musical improvisation and divergent thinking. Seed-based analysis consistently showed higher connectivity in ventral DMN (vDMN) and bilateral ECN in both groups of musically trained individuals as compared to MMT controls, with additional group differences in primary visual network, precuneus network, and posterior salience network. In particular, primary visual network connectivity to DMN and ECN was highest in Improvisational musicians, whereas within-network connectivity of vDMN and precuneus network was higher in both Improvisational and Classical musicians than in MMT controls; in contrast, connectivity between posterior salience network and superior parietal lobule was highest in Classical musicians. Furthermore, graph-theoretical analysis indicated heightened betweenness centrality, clustering, and local efficiency in Classical musicians. Taken together, results suggest that heightened functional connectivity among musicians can be explained by higher within-network connectivity (more tight-knit cortical networks) in Classical musicians, as opposed to more disperse, globally-connected cortical networks in Improvisational musicians. Highlights• Music training is associated with higher resting state connectivity • Higher connectivity in Improvisational musicians from visual network to ECN and DMN • Classical musicians show higher vDMN and Precuneus within-network connectivity • Improvisation and divergent thinking performance correlate with similar connectivity patterns

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Section: Differences In Resting State Connectivity Related To Generalsupporting

confidence: 89%

Improvising at Rest: Differentiating Jazz and Classical Music Training with Resting State Functional Connectivity

Belden

Zeng

Przysinda

et al. 2019

Preprint

View full text Add to dashboard Cite

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“…Unfortunately, we are aware of no study to date which has examined potential music-induced differences in brain connectivity between primary auditory and visual brain regions that would presumably mediate the doubleflash illusion (cf. Paraskevopoulos et al 2015). However, in musically lay individuals, prior studies have indicated that the likelihood of perceiving the double-flash illusion is highly correlated with white matter connectivity between occipito-parietal regions, the putative ventral/dorsal streams comprising the "what/where" pathways (Kaposvari et al 2015).…”

Section: Experience-dependent Changes In Multisensory Perceptionmentioning

confidence: 99%

Musicians have enhanced audiovisual multisensory binding: experience-dependent effects in the double-flash illusion

Bidelman

2016

Exp Brain Res

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Musical training is associated with behavioral and neurophysiological enhancements in auditory processing for both musical and nonmusical sounds (e.g., speech). Yet, whether the benefits of musicianship extend beyond enhancements to auditory-specific skills and impact multisensory (e.g., audiovisual) processing has yet to be fully validated. Here, we investigated multisensory integration of auditory and visual information in musicians and nonmusicians using a double-flash illusion, whereby the presentation of multiple auditory stimuli (beeps) concurrent with a single visual object (flash) induces an illusory perception of multiple flashes. We parametrically varied the onset asynchrony between auditory and visual events (leads and lags of ±300 ms) to quantify participants' "temporal window" of integration, i.e., stimuli in which auditory and visual cues were fused into a single percept. Results show that musically trained individuals were both faster and more accurate at processing concurrent audiovisual cues than their nonmusician peers; nonmusicians had a higher susceptibility for responding to audiovisual illusions and perceived double flashes over an extended range of onset asynchronies compared to trained musicians. Moreover, temporal window estimates indicated that musicians' windows (<100 ms) were ~2-3× shorter than nonmusicians' (~200 ms), suggesting more refined multisensory integration and audiovisual binding. Collectively, findings indicate a more refined binding of auditory and visual cues in musically trained individuals. We conclude that experience-dependent plasticity of intensive musical experience extends beyond simple listening skills, improving multimodal processing and the integration of multiple sensory systems in a domain-general manner.

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“…In this study, we compared novel word learning in musicians and nonmusicians by using three concatenated tasks that are dependent upon a variety of perceptual and cognitive functions typically involved in both music and language processing (Dittinger et al, 2016). Based on previous evidence pointing to an optimization of perceptual discrimination (Chobert et al, 2014;Marie et al, 2011), short-term and working memory (George & Coch, 2011;Schulze & Koelsch, 2012), executive functions (Zuk et al, 2014), and audiovisual integration (Bidelman, 2016;Paraskevopoulos, Kraneburg, Herholz, Bamidis, & Pantev, 2015) in musicians, we predicted that the musicians' advantage in word learning would translate into increased EEG-based functional connectivity along the ventral-and dorsal processing streams. Results consistently revealed increased beta coherence in the ventral compared to the dorsal stream during both the "matching-" and "semantic tasks."…”

Section: Discussionmentioning

confidence: 99%

Increased functional connectivity in the ventral and dorsal streams during retrieval of novel words in professional musicians

Dittinger

Valizadeh

Jäncke

et al. 2017

Human Brain Mapping

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Current models of speech and language processing postulate the involvement of two parallel processing streams (the dual stream model): a ventral stream involved in mapping sensory and phonological representations onto lexical and conceptual representations and a dorsal stream contributing to sound-to-motor mapping, articulation, and to how verbal information is encoded and manipulated in memory. Based on previous evidence showing that music training has an influence on language processing, cognitive functions, and word learning, we examined EEG-based intracranial functional connectivity in the ventral and dorsal streams while musicians and nonmusicians learned the meaning of novel words through picture-word associations. In accordance with the dual stream model, word learning was generally associated with increased beta functional connectivity in the ventral stream compared to the dorsal stream. In addition, in the linguistically most demanding "semantic task," musicians outperformed nonmusicians, and this behavioral advantage was accompanied by increased left-hemispheric theta connectivity in both streams. Moreover, theta coherence in the left dorsal pathway was positively correlated with the number of years of music training. These results provide evidence for a complex interplay within a network of brain regions involved in semantic processing and verbal memory functions, and suggest that intensive music training can modify its functional architecture leading to advantages in novel word learning.

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Musical expertise is related to altered functional connectivity during audiovisual integration

Cited by 49 publications

References 50 publications

Improvising at Rest: Differentiating Jazz and Classical Music Training with Resting State Functional Connectivity

Improvising at Rest: Differentiating Jazz and Classical Music Training with Resting State Functional Connectivity

Musicians have enhanced audiovisual multisensory binding: experience-dependent effects in the double-flash illusion

Increased functional connectivity in the ventral and dorsal streams during retrieval of novel words in professional musicians

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