Connectivity patterns during music listening: Evidence for action‐based processing in musicians

Alluri, Vinoo; Toiviainen, Petri; Burunat, Iballa; Kliuchko, Marina; Vuust, Peter; Brattico, Elvira

doi:10.1002/hbm.23565

Cited by 86 publications

(75 citation statements)

References 118 publications

(127 reference statements)

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“…Listening to music also showed significant changes in rs-FC of the e-PNN in healthy controls (Karmonik et al, 2016; Brodal et al, 2017; Alluri et al, 2017). However, the connectivity patterns show solely the after effects of listening to music and differ from those identified in the FM patients, starting with a right lateralization of the significant changes, compared to the left lateralization in FM.…”

Section: Discussionmentioning

confidence: 94%

Functional connectivity of music-induced analgesia in fibromyalgia

Pando‐Naude

Barrios

Alcauter

et al. 2017

Preprint

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Listening to self-chosen, pleasant and relaxing music reduces pain in fibromyalgia (FM), a chronic central pain condition. However, the neural correlates of this effect are fairly unknown and could be regarded as a more direct measure of analgesia. In our study, we wished to investigate the neural correlates of music-induced analgesia (MIA) in fibromyalgia patients. To do this, we studied 20 FM patients and 20 matched healthy controls (HC) acquiring rs-fMRI with a 3T MRI scanner, and pain data before and after two 5-min auditory conditions: music and noise. We performed resting state functional connectivity (rs-FC) seed-based correlation analyses (SCA) using pain and analgesia-related ROIs to determine the effects before and after the music intervention in FM and HC, and its correlation with pain reports. We found significant differences in baseline rs-FC between FM and HC. Both groups showed changes in rs-FC in several ROIs after the music condition between different areas, that were left lateralized in FM and right lateralized in HC. FM patients reported MIA that was significantly correlated with rs-FC decrease between the angular gyrus, posterior cingulate cortex and precuneus, and rs-FC increase between amygdala and middle frontal gyrus. These areas are related to autobiographical and limbic processes, and auditory attention, suggesting MIA may arise as a consequence of top-down modulation, probably originated by distraction, relaxation, positive emotion, or a combination of these mechanisms.

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Section: Discussionmentioning

confidence: 94%

Functional connectivity of music-induced analgesia in fibromyalgia

Pando‐Naude

Barrios

Alcauter

et al. 2017

Preprint

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“…It has been shown that some short-term plastic changes can even occur in the case of merely listening to music-without actually performing-(e.g., [95]) and in the short-time perspective of both listening and performing (e.g., [96]). Attentive listening to music in a real-time situation, in fact, is very demanding: it recruits multiple forms of memory, attention, semantic processing, target detection and motor function [18,97]. As such, we propose here that music represents a sort of enriched environment that invites the brain to raise its general level of conscious functioning.…”

Section: Discussionmentioning

confidence: 98%

“…Besides auditory cortices, also motor regions, such as the supplementary motor area and the cerebellum, are involved during musical activities, including both playing and listening. Due to audio-motor coupling that is necessary for playing an instrument, listening is influenced by the motor demands intrinsic to musical practice, even to the extent that this would become manifest also in the brain responses to music listening alone [18,19]. Moreover, practising and performing music is a complex, multimodal behaviour that requires extensive motor and cognitive abilities.…”

Section: Introductionmentioning

confidence: 99%

Music and Brain Plasticity: How Sounds Trigger Neurogenerative Adaptations

Reybrouck¹,

Vuust²,

Brattico³

2018

Neuroplasticity - Insights of Neural Reorganization

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This contribution describes how music can trigger plastic changes in the brain. We elaborate on the concept of neuroplasticity by focussing on three major topics: the ontogenetic scale of musical development, the phenomenon of neuroplasticity as the outcome of interactions with the sounds and a short survey of clinical and therapeutic applications. First, a distinction is made between two scales of description: the larger evolutionary scale (phylogeny) and the scale of individual development (ontogeny). In this sense, listeners are not constrained by a static dispositional machinery, but they can be considered as dynamical systems that are able to adapt themselves in answer to the solicitations of a challenging environment. Second, the neuroplastic changes are considered both from a structural and functional level of adaptation, with a special focus on the recent findings from network science. The neural activity of the medial regions of the brain seems to become more synchronised when listening to music as compared to rest, and these changes become permanent in individuals such as musicians with year-long musical practice. As such, the question is raised as to the clinical and therapeutic applications of music as a trigger for enhancing the functionality of the brain, both in normal and impaired people.

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“…For example, PreCG and PostCG are linked to experiencing tension, expectancy, and anticipation (Bjork & Hommer, 2007;James, Michel, Britz, Vuilleumier, & Hauert, 2012;Lehne et al, 2014;Thaut et al, 2014;Vuilleumier & Trost, 2015). Also, the PCUN is used in evaluating music's continuous structure, making perception-based predictions, and entrainment (Alluri et al, 2017;Trost et al, 2014). Thus, activity in the PreCG, PostCG and PCUN could be involved in processing musical structure and predicting future music events, alongside emotions such as tension, anticipation and expectancy.…”

Section: Brain and Emotional Responses To Pre-dropmentioning

confidence: 99%

When tension is exciting: an EEG exploration of excitement in music

Turrell

Halpern²,

Javadi

2019

Preprint

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Music powerfully affects people's emotions. In particular, moments of tension and deviation in musical features, including frequency, pitch, and rhythm (known as a Drop), are associated with positive emotions. However, the neuro-correlates of Drops emotive effects have never been explored. Thirty-six participants listened to music pieces containing a Drop, while undergoing continuous EEG, and rated felt excitement. Source reconstruction of EEG data showed significantly different activity in five brain regions before and after Drops: preand post-central gyri (PreCG and PostCG), and precuneus (PCUN) were more active before Drops and the inferior frontal gyrus (IFG), and middle frontal gyrus (MFG) were more active after Drops. Importantly, activity in the IFG and MFG showed a strong correlation with subjective excitement ratings during Drop apprehension. These results suggest expectancy is important to the induction of musical emotions, in agreement with the ITPRA theory.Specifically, when Drops are expected but do not occur immediately, moderate tension is induced. Strong positive emotions then ensue when expected deviations finally occur, due to contrastive valence. This is reflected in significant brain activity for regions associated with high arousing, pleasurable emotions, such as excitement.

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Connectivity patterns during music listening: Evidence for action‐based processing in musicians

Cited by 86 publications

References 118 publications

Functional connectivity of music-induced analgesia in fibromyalgia

Functional connectivity of music-induced analgesia in fibromyalgia

Music and Brain Plasticity: How Sounds Trigger Neurogenerative Adaptations

When tension is exciting: an EEG exploration of excitement in music

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