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PubMed Publications| Keyword search (4,163 papers available) |  |
"Zatorre RJ" Authored Publications:
| Title | Authors | PubMed ID | |
|---|---|---|---|
| 1 | Auditory working memory mechanisms mediating the relationship between musicianship and auditory stream segregation | Liu M; Arseneau-Bruneau I; Farrés Franch M; Latorre ME; Samuels J; Issa E; Payumo A; Rahman N; Loureiro N; Leung TCM; Nave KM; von Handorf KM; Hoddinott JD; Coffey EBJ; Grahn J; Zatorre RJ; | 40226491 PSYCHOLOGY |
| 2 | Human Auditory-Motor Networks Show Frequency-Specific Phase-Based Coupling in Resting-State MEG | Bedford O; Noly-Gandon A; Ara A; Wiesman AI; Albouy P; Baillet S; Penhune V; Zatorre RJ; | 39757971 PSYCHOLOGY |
| 3 | Cortical-subcortical interactions underlie processing of auditory predictions measured with 7T fMRI | Ara A; Provias V; Sitek K; Coffey EBJ; Zatorre RJ; | 39087881 PSYCHOLOGY |
| 4 | Using cortico-cerebellar structural patterns to classify early- and late-trained musicians | Shenker JJ; Steele CJ; Zatorre RJ; Penhune VB; | 37326147 PSYCHOLOGY |
| 5 | Early musical training shapes cortico-cerebellar structural covariation | Shenker JJ; Steele CJ; Chakravarty MM; Zatorre RJ; Penhune VB; | 34657166 PSYCHOLOGY |
| 6 | Effector-independent brain network for auditory-motor integration: fMRI evidence from singing and cello playing | Segado M; Zatorre RJ; Penhune VB; | 33989814 PSYCHOLOGY |
| 7 | Evolving perspectives on the sources of the frequency-following response. | Coffey EBJ, Nicol T, White-Schwoch T, Chandrasekaran B, Krizman J, Skoe E, Zatorre RJ, Kraus N | 31695046 PSYCHOLOGY |
| 8 | Partially Overlapping Brain Networks for Singing and Cello Playing. | Segado M, Hollinger A, Thibodeau J, Penhune V, Zatorre RJ | 29892211 PSYCHOLOGY |
| 9 | Neural network retuning and neural predictors of learning success associated with cello training | Wollman I; Penhune V; Segado M; Carpentier T; Zatorre RJ; | 29891670 PSYCHOLOGY |
| 10 | Rhythm and time in the premotor cortex. | Penhune VB, Zatorre RJ | 31158227 PSYCHOLOGY |
| 11 | Practice makes plasticity. | Steele CJ, Zatorre RJ | 30482944 PSYCHOLOGY |
| 12 | The Music-In-Noise Task (MINT): A Tool for Dissecting Complex Auditory Perception. | Coffey EBJ, Arseneau-Bruneau I, Zhang X, Zatorre RJ | 30930734 PSYCHOLOGY |
| Title: | Human Auditory-Motor Networks Show Frequency-Specific Phase-Based Coupling in Resting-State MEG | ||||
| Authors: | Bedford O, Noly-Gandon A, Ara A, Wiesman AI, Albouy P, Baillet S, Penhune V, Zatorre RJ | ||||
| Link: | https://pubmed.ncbi.nlm.nih.gov/39757971/ | ||||
| DOI: | 10.1002/hbm.70045 | ||||
| Publication: | Human brain mapping | ||||
| Keywords: | auditory-motor functional connectivity; auditory-motor integration; intrinsic connectivity; phase coupling; resting state MEG; | ||||
| PMID: | 39757971 | Category: | Date Added: | 2025-01-06 | |
| Dept Affiliation: |
PSYCHOLOGY
1 Montreal Neurological Institute, McGill University, Montréal, Quebec, Canada. 2 International Laboratory for Brain, Music and Sound Research (BRAMS), Montréal, Quebec, Canada. 3 Centre for Research on Brain, Language and Music (CRBLM), McGill University, Montréal, Quebec, Canada. 4 CERVO Brain Research Centre, School of Psychology, Université Laval, Québec City, Quebec, Canada. 5 Department of Psychology, Concordia University, Montréal, Quebec, Canada. |
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Description: |
Perception and production of music and speech rely on auditory-motor coupling, a mechanism which has been linked to temporally precise oscillatory coupling between auditory and motor regions of the human brain, particularly in the beta frequency band. Recently, brain imaging studies using magnetoencephalography (MEG) have also shown that accurate auditory temporal predictions specifically depend on phase coherence between auditory and motor cortical regions. However, it is not yet clear whether this tight oscillatory phase coupling is an intrinsic feature of the auditory-motor loop, or whether it is only elicited by task demands. Further, we do not know if phase synchrony is uniquely enhanced in the auditory-motor system compared to other sensorimotor modalities, or to which degree it is amplified by musical training. In order to resolve these questions, we measured the degree of phase locking between motor regions and auditory or visual areas in musicians and non-musicians using resting-state MEG. We derived phase locking values (PLVs) and phase transfer entropy (PTE) values from 90 healthy young participants. We observed significantly higher PLVs across all auditory-motor pairings compared to all visuomotor pairings in all frequency bands. The pairing with the highest degree of phase synchrony was right primary auditory cortex with right ventral premotor cortex, a connection which has been highlighted in previous literature on auditory-motor coupling. Additionally, we observed that auditory-motor and visuomotor PLVs were significantly higher across all structures in the right hemisphere, and we found the highest differences between auditory and visual PLVs in the theta, alpha, and beta frequency bands. Last, we found that the theta and beta bands exhibited a preference for a motor-to-auditory PTE direction and that the alpha and gamma bands exhibited the opposite preference for an auditory-to-motor PTE direction. Taken together, these findings confirm our hypotheses that motor phase synchrony is significantly enhanced in auditory compared to visual cortical regions at rest, that these differences are highest across the theta-beta spectrum of frequencies, and that there exist alternating information flow loops across auditory-motor structures as a function of frequency. In our view, this supports the existence of an intrinsic, time-based coupling for low-latency integration of sounds and movements which involves synchronized phasic activity between primary auditory cortex with motor and premotor cortical areas. |
