In humans, listening to speech evokes neural responses in the motor cortex. This has been controversially interpreted as evidence that speech sounds are processed as articulatory gestures. However, it is unclear what information is actually encoded by such neural activity. We used high-density direct human cortical recordings while participants spoke and listened to speech sounds. Motor cortex neural patterns during listening were substantially different than during articulation of the same sounds. During listening, we observed neural activity in the superior and inferior regions of ventral motor cortex. During speaking, responses were distributed throughout somatotopic representations of speech articulators in motor cortex. The structure o...
International audienceOne of the most fundamental questions in speech perception research is how pro...
Does "the motor system" play "a role" in speech perception? If so, where, how, and when? We conducte...
Listening to speech recruits a network of fronto-temporo-parietal cortical areas. Classical models c...
In humans, listening to speech evokes neural responses in the motor cortex. This has been controvers...
The motor regions that control movements of the articulators activate during listening to speech and...
The human brain contains a remarkable sensory system that allows us to effortlessly process speech. ...
AbstractProduction of actions is highly dependent on concurrent sensory information. In speech produ...
Production of actions is highly dependent on concurrent sensory information. In speech production, f...
The earliest stages of cortical processing of speech sounds take place in the auditory cortex. Trans...
To speak is to dynamically orchestrate the movements of the articulators (jaw, tongue, lips, and lar...
Listening to speech modulates activity in human motor cortex. It is unclear, however, whether the mo...
This dissertation investigates the cortical representation of speech perception, using a combination...
Speaking is one of the most complex actions that we perform, but nearly all of us learn to do it eff...
AbstractDoes “the motor system” play “a role” in speech perception? If so, where, how, and when? We ...
Speaking is one of the most complex actions we perform, yet nearly all of us learn to do it effortle...
International audienceOne of the most fundamental questions in speech perception research is how pro...
Does "the motor system" play "a role" in speech perception? If so, where, how, and when? We conducte...
Listening to speech recruits a network of fronto-temporo-parietal cortical areas. Classical models c...
In humans, listening to speech evokes neural responses in the motor cortex. This has been controvers...
The motor regions that control movements of the articulators activate during listening to speech and...
The human brain contains a remarkable sensory system that allows us to effortlessly process speech. ...
AbstractProduction of actions is highly dependent on concurrent sensory information. In speech produ...
Production of actions is highly dependent on concurrent sensory information. In speech production, f...
The earliest stages of cortical processing of speech sounds take place in the auditory cortex. Trans...
To speak is to dynamically orchestrate the movements of the articulators (jaw, tongue, lips, and lar...
Listening to speech modulates activity in human motor cortex. It is unclear, however, whether the mo...
This dissertation investigates the cortical representation of speech perception, using a combination...
Speaking is one of the most complex actions that we perform, but nearly all of us learn to do it eff...
AbstractDoes “the motor system” play “a role” in speech perception? If so, where, how, and when? We ...
Speaking is one of the most complex actions we perform, yet nearly all of us learn to do it effortle...
International audienceOne of the most fundamental questions in speech perception research is how pro...
Does "the motor system" play "a role" in speech perception? If so, where, how, and when? We conducte...
Listening to speech recruits a network of fronto-temporo-parietal cortical areas. Classical models c...