AbstractWe examined the relationship between brain anatomy and the ability to learn nonnative speech sounds, as well as rapidly changing and steady-state nonlinguistic sounds, using voxel-based morphometry in 59 healthy adults. Faster phonetic learners appeared to have more white matter in parietal regions, especially in the left hemisphere. The pattern of results was similar for the rapidly changing but not for the steady-state nonlinguistic stimuli, suggesting that morphological correlates of phonetic learning are related to the ability to process rapid temporal variation. Greater asymmetry in the amount of white matter in faster learners may be related to greater myelination allowing more efficient neural processing, which is critical fo...
Research on the contributions of the human nervous system to language processing and learning has ge...
AbstractA unique feature of human communication system is our ability to rapidly acquire new words a...
Neural plasticity in speech acquisition and learning is concerned with the timeline trajectory and t...
AbstractWe examined the relationship between brain anatomy and the ability to learn nonnative speech...
Previous work has shown a relationship between parietal lobe anatomy and nonnative speech sound lear...
International audiencePrevious work has shown a relationship between parietal lobe anatomy and nonna...
Morphology of the human brain predicts the speed at which individuals learn to distinguish novel for...
A previous fMRI study of novel speech sound learning, tied to the methods and results presented here...
Noise-vocoded speech is a spectrally highly degraded signal, but it preserves the temporal envelope ...
Previous work has shown a relationship between brain anatomy and how quickly adults learn to perceiv...
Many studies of non-native speech sound learning report a great deal of individual variability; some...
Abstract: A remarkable characteristic of the human nervous system is its ability to learn to integra...
Adults can learn to identify nonnative speech sounds with training, albeit with substantial variabil...
Phonetics experts are highly trained to analyze and transcribe speech, both with respect to faster c...
Phonetics experts are highly trained to analyze and transcribe speech, both with respect to faster c...
Research on the contributions of the human nervous system to language processing and learning has ge...
AbstractA unique feature of human communication system is our ability to rapidly acquire new words a...
Neural plasticity in speech acquisition and learning is concerned with the timeline trajectory and t...
AbstractWe examined the relationship between brain anatomy and the ability to learn nonnative speech...
Previous work has shown a relationship between parietal lobe anatomy and nonnative speech sound lear...
International audiencePrevious work has shown a relationship between parietal lobe anatomy and nonna...
Morphology of the human brain predicts the speed at which individuals learn to distinguish novel for...
A previous fMRI study of novel speech sound learning, tied to the methods and results presented here...
Noise-vocoded speech is a spectrally highly degraded signal, but it preserves the temporal envelope ...
Previous work has shown a relationship between brain anatomy and how quickly adults learn to perceiv...
Many studies of non-native speech sound learning report a great deal of individual variability; some...
Abstract: A remarkable characteristic of the human nervous system is its ability to learn to integra...
Adults can learn to identify nonnative speech sounds with training, albeit with substantial variabil...
Phonetics experts are highly trained to analyze and transcribe speech, both with respect to faster c...
Phonetics experts are highly trained to analyze and transcribe speech, both with respect to faster c...
Research on the contributions of the human nervous system to language processing and learning has ge...
AbstractA unique feature of human communication system is our ability to rapidly acquire new words a...
Neural plasticity in speech acquisition and learning is concerned with the timeline trajectory and t...