Keyword search (3,448 papers available)


Arcuate fasciculus architecture is associated with individual differences in pre-attentive detection of unpredicted music changes

Author(s): Vaquero L; Ramos-Escobar N; Cucurell D; François C; Putkinen V; Segura E; Huotilainen M; Penhune V; Rodríguez-Fornells A;...

The mismatch negativity (MMN) is an event related brain potential (ERP) elicited by unpredicted sounds presented in a sequence of repeated auditory stimuli. The neural sources of the MMN have been ...

Article GUID: 33454403
The effects of practice and delay on motor skill learning and retention

Author(s): Savion-Lemieux T; Penhune VB;

The present study assessed the effects of amount of practice and length of delay on the learning and retention of a timed motor sequence task. Participants learned to reproduce ten-element visual sequences by tapping in synchrony with the stimulus. Particip...

Article GUID: 15551084
The effect of early musical training on adult motor performance: evidence for a sensitive period in motor learning

Author(s): Penhune V; Watanabe D; Savion-Lemieux T;

This experiment demonstrates that musicians who began training before age seven perform better on a rhythmic tapping task than musicians who began after the age of seven, when the two groups are matched for years of experience. These results support the ide...

Article GUID: 16597774
Time for new thinking about sensitive periods

Author(s): Penhune V; de Villers-Sidani E;

No abstract available

Article GUID: 24782723
Performance monitoring in lung cancer patients pre- and post-chemotherapy using fine-grained electrophysiological measures

Author(s): Simó M; Gurtubay-Antolin A; Vaquero L; Bruna J; Rodríguez-Fornells A;

No previous event-related potentials (ERPs) study has explored the error-related negativity (ERN) - an ERP component indexing performance monitoring - associated to cancer and chemotherapy-induced cognitive impairment in a lung cancer population. The aim of...

Article GUID: 29387526
White-matter structural connectivity predicts short-term melody and rhythm learning in non-musicians

Author(s): Vaquero L; Ramos-Escobar N; François C; Penhune V; Rodríguez-Fornells A;

Music learning has received increasing attention in the last decades due to the variety of functions and brain plasticity effects involved during its practice. Most previous reports interpreted the differences between music experts and laymen as the result ...

Article GUID: 29929006
The sensation of groove is affected by the interaction of rhythmic and harmonic complexity

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...

Article GUID: 30629596
Title:White-matter structural connectivity predicts short-term melody and rhythm learning in non-musicians
Authors:Vaquero LRamos-Escobar NFrançois CPenhune VRodríguez-Fornells A
Link:https://pubmed.ncbi.nlm.nih.gov/29929006/
DOI:10.1016/j.neuroimage.2018.06.054
Category:Neuroimage
PMID:29929006
Dept Affiliation: MLNP
1 Department of Cognition, Development and Education Psychology, University of Barcelona, Passeig de la Vall d'Hebron, 171, 08035, Barcelona, Spain; Cognition & Brain Plasticity Unit, Bellvitge Biomedical Research Institute (IDIBELL), Feixa Llarga s/n, Pavelló de Govern - Edifici Modular, 08907, L'Hospitalet de Llobregat, Barcelona, Spain; Laboratory for Motor Learning and Neural Plasticity, Concordia University, 7141 Rue Sherbrooke West, H4B 1R6, Montreal, QC, Canada. Electronic address: lucia.vaquero.z@gmail.com.
2 Department of Cognition, Development and Education Psychology, University of Barcelona, Passeig de la Vall d'Hebron, 171, 08035, Barcelona, Spain; Cognition & Brain Plasticity Unit, Bellvitge Biomedical Research Institute (IDIBELL), Feixa Llarga s/n, Pavelló de Govern - Edifici Modular, 08907, L'Hospitalet de Llobregat, Barcelona, Spain.
3 Laboratory for Motor Learning and Neural Plasticity, Concordia University, 7141 Rue Sherbrooke West, H4B 1R6, Montreal, QC, Canada; International Laboratory for Brain, Music and Sound Research (BRAMS), 1430 Mont Royal boul, Suite 0-114, H2V 4P3, Montreal, QC, Canada; Center for Research on Brain, Language and Music (CRBLM), McGill University, 3640 de la Montagne, H3G 2A8, Montreal, QC, Canada. Electronic address: virginia.penhune@concordia.ca.
4 Department of Cognition, Development and Education Psychology, University of Barcelona, Passeig de la Vall d'Hebron, 171, 08035, Barcelona, Spain; Cognition & Brain Plasticity Unit, Bellvitge Biomedical Research Institute (IDIBELL), Feixa Llarga s/n, Pavelló de Govern - Edifici Modular, 08907, L'Hospitalet de Llobregat, Barcelona, Spain; Institució Catalana de recerca i Estudis Avançats (ICREA), Passeig Lluís Companys, 23, 08010, Barcelona, Spain.

Description:

Music learning has received increasing attention in the last decades due to the variety of functions and brain plasticity effects involved during its practice. Most previous reports interpreted the differences between music experts and laymen as the result of training. However, recent investigations suggest that these differences are due to a combination of genetic predispositions with the effect of music training. Here, we tested the relationship of the dorsal auditory-motor pathway with individual behavioural differences in short-term music learning. We gathered structural neuroimaging data from 44 healthy non-musicians (28 females) before they performed a rhythm- and a melody-learning task during a single behavioural session, and manually dissected the arcuate fasciculus (AF) in both hemispheres. The macro- and microstructural organization of the AF (i.e., volume and FA) predicted the learning rate and learning speed in the musical tasks, but only in the right hemisphere. Specifically, the volume of the right anterior segment predicted the synchronization improvement during the rhythm task, the FA in the right long segment was correlated with the learning rate in the melody task, and the volume and FA of the right whole AF predicted the learning speed during the melody task. This is the first study finding a specific relation between different branches within the AF and rhythmic and melodic materials. Our results support the relevant function of the AF as the structural correlate of both auditory-motor transformations and the feedback-feedforward loop, and suggest a crucial involvement of the anterior segment in error-monitoring processes related to auditory-motor learning. These findings have implications for both the neuroscience of music field and second-language learning investigations.