TY - JOUR
T1 - Corticomuscular Coherence Is Tuned to the Spontaneous Rhythmicity of Speech at 2-3 Hz
AU - Ruspantini, Irene
AU - Saarinen, Timo
AU - Belardinelli, Paolo
AU - Jalava, Antti
AU - Parviainen, Tiina
AU - Kujala, Jan
AU - Salmelin, Riitta
PY - 2012
Y1 - 2012
N2 - Human speech features rhythmicity that frames distinctive, fine-grained speech patterns. Speech can thus be counted among rhythmic motor behaviors that generally manifest characteristic spontaneous rates. However, the critical neural evidence for tuning of articulatory control to a spontaneous rate of speech has not been uncovered. The present study examined the spontaneous rhythmicity in speech production and its relationship to cortex–muscle neurocommunication, which is essential for speech control. Our MEG results show that, during articulation, coherent oscillatory coupling between the mouth sensorimotor cortex and the mouth muscles is strongest at the frequency of spontaneous rhythmicity of speech at 2–3 Hz, which is also the typical rate of word production. Corticomuscular coherence, a measure of efficient cortex–muscle neurocommunication, thus reveals behaviorally relevant oscillatory tuning for spoken language.
AB - Human speech features rhythmicity that frames distinctive, fine-grained speech patterns. Speech can thus be counted among rhythmic motor behaviors that generally manifest characteristic spontaneous rates. However, the critical neural evidence for tuning of articulatory control to a spontaneous rate of speech has not been uncovered. The present study examined the spontaneous rhythmicity in speech production and its relationship to cortex–muscle neurocommunication, which is essential for speech control. Our MEG results show that, during articulation, coherent oscillatory coupling between the mouth sensorimotor cortex and the mouth muscles is strongest at the frequency of spontaneous rhythmicity of speech at 2–3 Hz, which is also the typical rate of word production. Corticomuscular coherence, a measure of efficient cortex–muscle neurocommunication, thus reveals behaviorally relevant oscillatory tuning for spoken language.
KW - corticomuscular coherence
KW - rhythmicity of speech
KW - corticomuscular coherence
KW - rhythmicity of speech
KW - corticomuscular coherence
KW - rhythmicity of speech
UR - http://www.jneurosci.org/content/32/11/3786.full.pdf+html
U2 - 10.1523/JNEUROSCI.3191-11.2012
DO - 10.1523/JNEUROSCI.3191-11.2012
M3 - Article
SN - 0270-6474
VL - 32
SP - 3786
EP - 3790
JO - JOURNAL OF NEUROSCIENCE
JF - JOURNAL OF NEUROSCIENCE
IS - 11
ER -