Author(s): Spiech C; Martínez MG; Lazzari G; Penhune V;

The pleasurable urge to move to music ("groove") has been shown to be greatest for moderately complex musical rhythms. This is thought to occur because temporal predictions from the motor system reinforce our perception of the beat when there is a balance between expectation and surprise. The supplementary motor area (SMA) has been identified as ...

Article GUID: 41511416

Author(s): Lazzari G; Ferreri L; Cattaneo L; Penhune V; Lega C;

The ability to internally generate and maintain a rhythmic pulse, i.e., beat imagery, is a fundamental aspect of musical cognition. While recent theories propose that premotor regions support internal temporal predictions during rhythm perception and imagery, direct causal evidence remains limited. In this study, we investigated the specific contributions ...

Article GUID: 41248776

Author(s): Lazzari G; Costantini G; La Rocca S; Massironi A; Cattaneo L; Penhune V; Lega C;

Humans can flexibly extract a regular beat from complex rhythmic auditory patterns, as often occurs in music. Contemporary models of beat perception suggest that the premotor cortex (PMC) and the supplementary motor area (SMA) are integral to this process. However, how these motor planning regions actively contribute to beat perception, along with any pot ...

Article GUID: 40344601