Central Auditory Plasticity: Changes in the N1-P2 Complex after Speech-Sound Training

Central Auditory Plasticity: Changes in the N1-P2 Complex after Speech-Sound Training

OBJECTIVETo determine whether the N1-P2 complex reflects training-induced changes in neural activity associated with improved voice-onset-time (VOT) perception. DESIGNAuditory cortical evoked potentials N1 and P2 were obtained from 10 normal-hearing young adults in response to two synthetic speech v...

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Bibliographic Details
Published in:Ear and hearing Vol. 22; no. 2; pp. 79 - 90
Main Authors: Tremblay, Kelly, Kraus, Nina, McGee, Therese, Ponton, Curtis, Otis, and Brian
Format: Journal Article
Language:English
Published: Baltimore, MD Lippincott Williams & Wilkins, Inc 01-04-2001
Lippincott Williams & Wilkins
Subjects:
Adult
Auditory Pathways - physiology
Biological and medical sciences
Cues
Electrodiagnosis. Electric activity recording
Evoked Potentials, Auditory - physiology
Female
Humans
Investigative techniques, diagnostic techniques (general aspects)
Male
Medical sciences
Nervous system
Neuronal Plasticity - physiology
Phonetics
Speech Perception - physiology
Time Factors
Verbal Learning
Human
Electrodiagnosis
Improvement
Onset time
Auditory evoked potential
Plasticity
Exploration
Voice
Auditory cortex
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Summary:OBJECTIVETo determine whether the N1-P2 complex reflects training-induced changes in neural activity associated with improved voice-onset-time (VOT) perception. DESIGNAuditory cortical evoked potentials N1 and P2 were obtained from 10 normal-hearing young adults in response to two synthetic speech variants of the syllable /ba./ Using a repeated measures design, subjects were tested before and after training both behaviorally and neurophysiologically to determine whether there were training-related changes. In between pre- and post-testing sessions, subjects were trained to distinguish the −20 and −10 msec VOT /ba/ syllables as being different from each other. Two stimulus presentation rates were used during electrophysiologic testing (390 msec and 910 msec interstimulus interval). RESULTSBefore training, subjects perceived both the −20 msec and −10 msec VOT stimuli as /ba./ Through training, subjects learned to identify the −20 msec VOT stimulus as “mba” and −10 msec VOT stimulus as “ba.” As subjects learned to correctly identify the difference between the −20 msec and −10 msec VOT syllabi, an increase in N1-P2 peak-to-peak amplitude was observed. The effects of training were most obvious at the slower stimulus presentation rate. CONCLUSIONSAs perception improved, N1-P2 amplitude increased. These changes in waveform morphology are thought to reflect increases in neural synchrony as well as strengthened neural connections associated with improved speech perception. These findings suggest that the N1-P2 complex may have clinical applications as an objective physiologic correlate of speech-sound representation associated with speech-sound training.
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ISSN:0196-0202
1538-4667
DOI:10.1097/00003446-200104000-00001