Neural correlates of switching from auditory to speech perception

@article{DehaeneLambertz2005NeuralCO,
  title={Neural correlates of switching from auditory to speech perception},
  author={Ghislaine Dehaene-Lambertz and Christophe Pallier and Willy Serniclaes and Liliane Sprenger-Charolles and Antoinette Jobert and Stanislas Dehaene},
  journal={NeuroImage},
  year={2005},
  volume={24},
  pages={21-33}
}
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254 Citations
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Results Citations
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References

SHOWING 1-10 OF 77 REFERENCES
Human temporal-lobe response to vocal sounds.
Electrophysiological correlates of categorical phoneme perception in adults
TLDR
It is suggested that a language-specific phonemic code has a separate neural representation in sensory memory and can serve as the basis for auditory mismatch detection.
Auditory Cortex Accesses Phonological Categories: An MEG Mismatch Study
TLDR
The studies presented here use an adapted oddball paradigm to show evidence that representations of discrete phonological categories are available to the human auditory cortex, and demonstrate the all-or-nothing property of phonological category membership.
Voice-selective areas in human auditory cortex
TLDR
It is shown, using functional magnetic resonance imaging in human volunteers, that voice-selective regions can be found bilaterally along the upper bank of the superior temporal sulcus (STS), and their existence sheds new light on the functional architecture of the human auditory cortex.
Event-related brain potentials and discrimination of steady-state vowels within and between phoneme categories: A preliminary study
The mismatch negativity (MMN), a component of the human auditory event-related brain potential, is elicited by a physically deviant stimulus in a sequence of homogeneo. “standard”, stimuli. MMN
Detection of Sounds in the Auditory Stream: Event-Related fMRI Evidence for Differential Activation to Speech and Nonspeech
TLDR
Speech stimuli elicited significantly greater activation than both complex and simple nonspeech stimuli in classic receptive language areas, namely the middle temporal gyri bilaterally and in a locus lateralized to the left posterior superior temporal gyrus.
Short-Term Reorganization of Auditory Analysis Induced by Phonetic Experience
TLDR
These findings suggest that the perception of speech is contingent on the presence of familiar patterns of spectral variation, and that the analysis of speech sounds in the auditory cortex is distinct from the simple resolution of auditory form.
Language-specific phoneme representations revealed by electric and magnetic brain responses
TLDR
It is found that the brain's automatic change-detection response, reflected electrically as the mismatch negativity (MMN) was enhanced when the infrequent, deviant stimulus was a prototype relative to when it was a non-prototype (the Estonian /õ/).
Human temporal lobe activation by speech and nonspeech sounds.
TLDR
Recording of blood oxygenation signals from the temporal lobes of normal volunteers using functional magnetic resonance imaging indicates functional subdivision of the human lateral temporal cortex and provides a preliminary framework for understanding the cortical processing of speech sounds.
Phonetic Perception and the Temporal Cortex
TLDR
Three independent studies additionally demonstrating hemodynamic responses in the vicinity of the planum temporale (PT) are reported, compatible with the hypothesis that the STS contains neurons specialized for speech perception and in the analysis of phonetic features, namely the voice-onset-time.
...
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