Keyword search (3,448 papers available)


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:Rhythm and time in the premotor cortex.
Authors:Penhune VBZatorre RJ
Link:https://www.ncbi.nlm.nih.gov/pubmed/31158227?dopt=Abstract
Category:PLoS Biol
PMID:31158227
Dept Affiliation: PSYCHOLOGY
1 Department of Psychology, Concordia University, Montreal, Quebec, Canada.
2 Laboratory for Brain, Music and Sound Research-BRAMS, Montreal, Quebec, Canada.
3 Montreal Neurological Institute, McGill University, Montreal, Quebec, Canada.

Description:

Rhythm and time in the premotor cortex.

PLoS Biol. 2019 Jun 03;17(6):e3000293

Authors: Penhune VB, Zatorre RJ

Abstract

Many animals can encode temporal intervals and use them to plan their actions, but only humans can flexibly extract a regular beat from complex patterns, such as musical rhythms. Beat-based timing is hypothesized to rely on the integration of sensory information with temporal information encoded in motor regions such as the medial premotor cortex (MPC), but how beat-based timing might be encoded in neuronal populations is mostly unknown. Gámez and colleagues show that the MPC encodes temporal information via a population code visible as circular trajectories in state space; these patterns may represent precursors to more-complex skills such as beat-based timing.

PMID: 31158227 [PubMed - as supplied by publisher]