Interactions between auditory and dorsal premotor cortex during synchronization to musical rhythms

When listening to music, we often spontaneously synchronize our body movements to a rhythm's beat (e.g. tapping our feet). The goals of this study were to determine how features of a rhythm such as metric structure, can facilitate motor responses, and to elucidate the neural correlates of these...

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Published in	NeuroImage (Orlando, Fla.) Vol. 32; no. 4; pp. 1771 - 1781
Main Authors	Chen, Joyce L., Zatorre, Robert J., Penhune, Virginia B.
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.10.2006 Elsevier Limited
Subjects	Acoustic Stimulation Adult Analysis of Variance Auditory cortex Auditory Cortex - physiology Behavior Cues Female Finger tapping Fingers - physiology fMRI Humans Image Processing, Computer-Assisted Magnetic Resonance Imaging Male Medical research Motor Cortex - physiology Motor timing Music Music - psychology Musicians & conductors Nerve Net - physiology Oxygen - blood Premotor cortex Psychomotor Performance - physiology Rhythm Sensorimotor Studies Temporal Motor timing fMRI Finger tapping Temporal Premotor cortex Auditory cortex Sensorimotor
Online Access	Get full text
ISSN	1053-8119 1095-9572
DOI	10.1016/j.neuroimage.2006.04.207

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Abstract	When listening to music, we often spontaneously synchronize our body movements to a rhythm's beat (e.g. tapping our feet). The goals of this study were to determine how features of a rhythm such as metric structure, can facilitate motor responses, and to elucidate the neural correlates of these auditory–motor interactions using fMRI. Five variants of an isochronous rhythm were created by increasing the contrast in sound amplitude between accented and unaccented tones, progressively highlighting the rhythm's metric structure. Subjects tapped in synchrony to these rhythms, and as metric saliency increased across the five levels, louder tones evoked longer tap durations with concomitant increases in the BOLD response at auditory and dorsal premotor cortices. The functional connectivity between these regions was also modulated by the stimulus manipulation. These results show that metric organization, as manipulated via intensity accentuation, modulates motor behavior and neural responses in auditory and dorsal premotor cortex. Auditory–motor interactions may take place at these regions with the dorsal premotor cortex interfacing sensory cues with temporally organized movement.
AbstractList	When listening to music, we often spontaneously synchronize our body movements to a rhythm's beat (e.g. tapping our feet). The goals of this study were to determine how features of a rhythm such as metric structure, can facilitate motor responses, and to elucidate the neural correlates of these auditory-motor interactions using fMRI. Five variants of an isochronous rhythm were created by increasing the contrast in sound amplitude between accented and unaccented tones, progressively highlighting the rhythm's metric structure. Subjects tapped in synchrony to these rhythms, and as metric saliency increased across the five levels, louder tones evoked longer tap durations with concomitant increases in the BOLD response at auditory and dorsal premotor cortices. The functional connectivity between these regions was also modulated by the stimulus manipulation. These results show that metric organization, as manipulated via intensity accentuation, modulates motor behavior and neural responses in auditory and dorsal premotor cortex. Auditory-motor interactions may take place at these regions with the dorsal premotor cortex interfacing sensory cues with temporally organized movement. When listening to music, we often spontaneously synchronize our body movements to a rhythms beat (e.g. tapping our feet). The goals of this study were to determine how features of a rhythm such as metric structure, can facilitate motor responses, and to elucidate the neural correlates of these auditory-motor interactions using fMRI. Five variants of an isochronous rhythm were created by increasing the contrast in sound amplitude between accented and unaccented tones, progressively highlighting the rhythms metric structure. Subjects tapped in synchrony to these rhythms, and as metric saliency increased across the five levels, louder tones evoked longer tap durations with concomitant increases in the BOLD response at auditory and dorsal premotor cortices. The functional connectivity between these regions was also modulated by the stimulus manipulation. These results show that metric organization, as manipulated via intensity accentuation, modulates motor behavior and neural responses in auditory and dorsal premotor cortex. Auditory-motor interactions may take place at these regions with the dorsal premotor cortex interfacing sensory cues with temporally organized movement. When listening to music, we often spontaneously synchronize our body movements to a rhythm's beat (e.g. tapping our feet). The goals of this study were to determine how features of a rhythm such as metric structure, can facilitate motor responses, and to elucidate the neural correlates of these auditory-motor interactions using fMRI. Five variants of an isochronous rhythm were created by increasing the contrast in sound amplitude between accented and unaccented tones, progressively highlighting the rhythm's metric structure. Subjects tapped in synchrony to these rhythms, and as metric saliency increased across the five levels, louder tones evoked longer tap durations with concomitant increases in the BOLD response at auditory and dorsal premotor cortices. The functional connectivity between these regions was also modulated by the stimulus manipulation. These results show that metric organization, as manipulated via intensity accentuation, modulates motor behavior and neural responses in auditory and dorsal premotor cortex. Auditory-motor interactions may take place at these regions with the dorsal premotor cortex interfacing sensory cues with temporally organized movement.When listening to music, we often spontaneously synchronize our body movements to a rhythm's beat (e.g. tapping our feet). The goals of this study were to determine how features of a rhythm such as metric structure, can facilitate motor responses, and to elucidate the neural correlates of these auditory-motor interactions using fMRI. Five variants of an isochronous rhythm were created by increasing the contrast in sound amplitude between accented and unaccented tones, progressively highlighting the rhythm's metric structure. Subjects tapped in synchrony to these rhythms, and as metric saliency increased across the five levels, louder tones evoked longer tap durations with concomitant increases in the BOLD response at auditory and dorsal premotor cortices. The functional connectivity between these regions was also modulated by the stimulus manipulation. These results show that metric organization, as manipulated via intensity accentuation, modulates motor behavior and neural responses in auditory and dorsal premotor cortex. Auditory-motor interactions may take place at these regions with the dorsal premotor cortex interfacing sensory cues with temporally organized movement.
Author	Penhune, Virginia B. Zatorre, Robert J. Chen, Joyce L.
Author_xml	– sequence: 1 givenname: Joyce L. surname: Chen fullname: Chen, Joyce L. email: joyce.chen@mail.mcgill.ca organization: Montreal Neurological Institute, McGill University, Rm. 276, 3801 University St., Montreal, QC, Canada H3A 2B4 – sequence: 2 givenname: Robert J. surname: Zatorre fullname: Zatorre, Robert J. organization: Montreal Neurological Institute, McGill University, Rm. 276, 3801 University St., Montreal, QC, Canada H3A 2B4 – sequence: 3 givenname: Virginia B. surname: Penhune fullname: Penhune, Virginia B. organization: Concordia University, Dept. of Psychology, 7141 Sherbrooke St. W., Montreal, QC, Canada H4B 1R6
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/16777432$$D View this record in MEDLINE/PubMed
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Snippet	When listening to music, we often spontaneously synchronize our body movements to a rhythm's beat (e.g. tapping our feet). The goals of this study were to... When listening to music, we often spontaneously synchronize our body movements to a rhythms beat (e.g. tapping our feet). The goals of this study were to...
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SubjectTerms	Acoustic Stimulation Adult Analysis of Variance Auditory cortex Auditory Cortex - physiology Behavior Cues Female Finger tapping Fingers - physiology fMRI Humans Image Processing, Computer-Assisted Magnetic Resonance Imaging Male Medical research Motor Cortex - physiology Motor timing Music Music - psychology Musicians & conductors Nerve Net - physiology Oxygen - blood Premotor cortex Psychomotor Performance - physiology Rhythm Sensorimotor Studies Temporal
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Title	Interactions between auditory and dorsal premotor cortex during synchronization to musical rhythms
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