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The sensation of groove engages motor and reward networks.

Author(s): Matthews TE, Witek MAG, Lund T, Vuust P, Penhune VB

Neuroimage. 2020 Mar 23;:116768 Authors: Matthews TE, Witek MAG, Lund T, Vuust P, Penhune VB

Article GUID: 32217163
Music predictability and liking enhance pupil dilation and promote motor learning in non-musicians.

Author(s): Bianco R, Gold BP, Johnson AP, Penhune VB

Sci Rep. 2019 Nov 19;9(1):17060 Authors: Bianco R, Gold BP, Johnson AP, Penhune VB

Article GUID: 31745159
The descending motor tracts are different in dancers and musicians.

Author(s): Giacosa C, Karpati FJ, Foster NEV, Hyde KL, Penhune VB

Brain Struct Funct. 2019 Oct 16;: Authors: Giacosa C, Karpati FJ, Foster NEV, Hyde KL, Penhune VB

Article GUID: 31620887
Dance and music share gray matter structural correlates.

Author(s): Karpati FJ, Giacosa C, Foster NEV, Penhune VB, Hyde KL

Brain Res. 2017 02 15;1657:62-73 Authors: Karpati FJ, Giacosa C, Foster NEV, Penhune VB, Hyde KL

Article GUID: 27923638
Efficacy of Auditory versus Motor Learning for Skilled and Novice Performers.

Author(s): Brown RM, Penhune VB

J Cogn Neurosci. 2018 11;30(11):1657-1682 Authors: Brown RM, Penhune VB

Article GUID: 30156505
The role of musical training in emergent and event-based timing.

Author(s): Baer LH, Thibodeau JL, Gralnick TM, Li KZ, Penhune VB

Front Hum Neurosci. 2013;7:191 Authors: Baer LH, Thibodeau JL, Gralnick TM, Li KZ, Penhune VB

Article GUID: 23717275
Effects of age and cognitive load on response reprogramming.

Author(s): Korotkevich Y, Trewartha KM, Penhune VB, Li KZ

Exp Brain Res. 2015 Mar;233(3):937-46 Authors: Korotkevich Y, Trewartha KM, Penhune VB, Li KZ

Article GUID: 25511168
Regional cerebellar volumes are related to early musical training and finger tapping performance.

Author(s): Baer LH, Park MT, Bailey JA, Chakravarty MM, Li KZ, Penhune VB

Neuroimage. 2015 Apr 01;109:130-9 Authors: Baer LH, Park MT, Bailey JA, Chakravarty MM, Li KZ, Penhune VB

Article GUID: 25583606
Rhythm and time in the premotor cortex.

Author(s): Penhune VB, Zatorre RJ

PLoS Biol. 2019 Jun 03;17(6):e3000293 Authors: Penhune VB, Zatorre RJ

Article GUID: 31158227
Structural Covariance Analysis Reveals Differences Between Dancers and Untrained Controls.

Author(s): Karpati FJ, Giacosa C, Foster NEV, Penhune VB, Hyde KL

Front Hum Neurosci. 2018;12:373 Authors: Karpati FJ, Giacosa C, Foster NEV, Penhune VB, Hyde KL

Article GUID: 30319377
Title:The sensation of groove engages motor and reward networks.
Authors:Matthews TEWitek MAGLund TVuust PPenhune VB
Link:https://www.ncbi.nlm.nih.gov/pubmed/32217163?dopt=Abstract
DOI:10.1016/j.neuroimage.2020.116768
Category:Neuroimage
PMID:32217163
Dept Affiliation: PSYCHOLOGY
1 Department of Psychology, Concordia University, 7141 Sherbrooke St W, Montreal, Quebec, H4B 1R6, Canada. Electronic address: tomas_ma@live.concordia.ca.
2 Department of Music School of Languages, Cultures, Art History and Music, University of Birmingham, Birmingham, B15 2TT, United Kingdom. Electronic address: m.a.g.witek@bham.ac.uk.
3 Center of Functionally Integrative Neuroscience, Department of Clinical Medicine, Aarhus University Hospital, Nørrebrogade 44, Building 1A, 8000, Aarhus C, Denmark. Electronic address: torbenelund@cfin.au.dk.
4 Center for Music in the Brain, Department of Clinical Medicine, Aarhus University Hospital, Nørrebrogade 44, Building 1A, 8000, Aarhus C, Denmark; Royal Academy of Music, Skovgaardsgade 2C, DK-8000, Aarhus C, Denmark. Electronic address: petervuust@gmail.com.
5 Department of Psychology, Concordia University, 7141 Sherbrooke St W, Montreal, Quebec, H4B 1R6, Canada. Electronic address: Virginia.Penhune@concordia.ca.

Description:

The sensation of groove engages motor and reward networks.

Neuroimage. 2020 Mar 23;:116768

Authors: Matthews TE, Witek MAG, Lund T, Vuust P, Penhune VB

Abstract

The sensation of groove has been defined as the pleasurable desire to move to music, suggesting that both motor timing and reward processes are involved in this experience. Although many studies have investigated rhythmic timing and musical reward separately, none have examined whether the associated cortical and subcortical networks are engaged while participants listen to groove-based music. In the current study, musicians and non-musicians listened to and rated experimentally controlled groove-based stimuli while undergoing functional magnetic resonance imaging. Medium complexity rhythms elicited higher ratings of pleasure and wanting to move and were associated with activity in regions linked to beat perception and reward, as well as prefrontal and parietal regions implicated in generating and updating stimuli-based expectations. Activity in basal ganglia regions of interest, including the nucleus accumbens, caudate and putamen, was associated with ratings of pleasure and wanting to move, supporting their important role in the sensation of groove. We propose a model in which different cortico-striatal circuits interact to support the mechanisms underlying groove, including internal generation of the beat, beat-based expectations, and expectation-based affect. These results show that the sensation of groove is supported by motor and reward networks in the brain and, along with our proposed model, suggest that the basal ganglia are crucial nodes in networks that interact to generate this powerful response to music.

PMID: 32217163 [PubMed - as supplied by publisher]