Individual differences in sound-in-noise perception are related to the strength of short-latency neural responses to noise.

Individual differences in sound-in-noise perception are related to the strength of short-latency neural responses to noise.

Important sounds can be easily missed or misidentified in the presence of extraneous noise. We describe an auditory illusion in which a continuous ongoing tone becomes inaudible during a brief, non-masking noise burst more than one octave away, which is unexpected given the frequency resolution of h...

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Main Authors: Ekaterina Vinnik, Pavel M Itskov, Evan Balaban
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-02-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21387016/?tool=EBI
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spelling doaj-17144766a08644329e9d705b3eae64bc2021-03-03T19:53:47ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-02-0162e1726610.1371/journal.pone.0017266Individual differences in sound-in-noise perception are related to the strength of short-latency neural responses to noise.Ekaterina VinnikPavel M ItskovEvan BalabanImportant sounds can be easily missed or misidentified in the presence of extraneous noise. We describe an auditory illusion in which a continuous ongoing tone becomes inaudible during a brief, non-masking noise burst more than one octave away, which is unexpected given the frequency resolution of human hearing. Participants strongly susceptible to this illusory discontinuity did not perceive illusory auditory continuity (in which a sound subjectively continues during a burst of masking noise) when the noises were short, yet did so at longer noise durations. Participants who were not prone to illusory discontinuity showed robust early electroencephalographic responses at 40-66 ms after noise burst onset, whereas those prone to the illusion lacked these early responses. These data suggest that short-latency neural responses to auditory scene components reflect subsequent individual differences in the parsing of auditory scenes.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21387016/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Ekaterina Vinnik
Pavel M Itskov
Evan Balaban
spellingShingle Ekaterina Vinnik
Pavel M Itskov
Evan Balaban
Individual differences in sound-in-noise perception are related to the strength of short-latency neural responses to noise.
PLoS ONE
author_facet Ekaterina Vinnik
Pavel M Itskov
Evan Balaban
author_sort Ekaterina Vinnik
title Individual differences in sound-in-noise perception are related to the strength of short-latency neural responses to noise.
title_short Individual differences in sound-in-noise perception are related to the strength of short-latency neural responses to noise.
title_full Individual differences in sound-in-noise perception are related to the strength of short-latency neural responses to noise.
title_fullStr Individual differences in sound-in-noise perception are related to the strength of short-latency neural responses to noise.
title_full_unstemmed Individual differences in sound-in-noise perception are related to the strength of short-latency neural responses to noise.
title_sort individual differences in sound-in-noise perception are related to the strength of short-latency neural responses to noise.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-02-01
description Important sounds can be easily missed or misidentified in the presence of extraneous noise. We describe an auditory illusion in which a continuous ongoing tone becomes inaudible during a brief, non-masking noise burst more than one octave away, which is unexpected given the frequency resolution of human hearing. Participants strongly susceptible to this illusory discontinuity did not perceive illusory auditory continuity (in which a sound subjectively continues during a burst of masking noise) when the noises were short, yet did so at longer noise durations. Participants who were not prone to illusory discontinuity showed robust early electroencephalographic responses at 40-66 ms after noise burst onset, whereas those prone to the illusion lacked these early responses. These data suggest that short-latency neural responses to auditory scene components reflect subsequent individual differences in the parsing of auditory scenes.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21387016/?tool=EBI
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AT pavelmitskov individualdifferencesinsoundinnoiseperceptionarerelatedtothestrengthofshortlatencyneuralresponsestonoise
AT evanbalaban individualdifferencesinsoundinnoiseperceptionarerelatedtothestrengthofshortlatencyneuralresponsestonoise
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