Author(s): Matthews TE; Lumaca M; Witek MAG; Penhune VB; Vuust P;
There are pronounced differences in the degree to which individuals experience music-induced pleasure which are linked to variations in structural connectivity between auditory and reward areas. However, previous studies exploring the link between white matter structure and music reward sensitivity (MRS) have relied on standard diffusion tensor imaging me ...
Article GUID: 39052097
Author(s): Pando-Naude V; Matthews TE; Højlund A; Jakobsen S; Østergaard K; Johnsen E; Garza-Villarreal EA; Witek MAG; Penhune V; Vuust P;
The pleasurable urge to move to music (PLUMM) activates motor and reward areas of the brain and is thought to be driven by predictive processes. Dopamine in motor and limbic networks is implicated in beat-based timing and music-induced pleasure, suggesting a central role of basal ganglia (BG) dop ...
Article GUID: 37724707
Author(s): Witek MAG; Matthews T; Bodak R; Blausz MW; Penhune V; Vuust P;
The inverted U hypothesis in music predicts that listeners prefer intermediate levels of complexity. However, the shape of the liking response to harmonic complexity and the effect of musicianship remains unclear. Here, we tested whether the relationship between liking and harmonic complexity in single chords shows an inverted U shape and whether this U s ...
Article GUID: 36730271
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
Author(s): Matthews TE; Witek MAG; Heggli OA; Penhune VB; Vuust P;
The pleasurable desire to move to music, also known as groove, is modulated by rhythmic complexity. How the sensation of groove is influenced by other musical features, such as the harmonic complexity of individual chords, is less clear. To address this, we asked people with a range of musical experience to rate stimuli that varied in both rhythmic and ha ...
Article GUID: 30629596
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