Decreased Speech-In-Noise Understanding in Young Adults with Tinnitus

Young people are often exposed to high music levels which make them more at risk to develop noise-induced symptoms such as hearing loss, hyperacusis, and tinnitus of which the latter is the symptom perceived the most by young adults. Although, subclinical neural damage was demonstrated in animal exp...

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Published inFrontiers in neuroscience Vol. 10; p. 288
Main Authors Gilles, Annick, Schlee, Winny, Rabau, Sarah, Wouters, Kristien, Fransen, Erik, Van de Heyning, Paul
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 28.06.2016
Frontiers Media S.A
Subjects
Adolescents
Auditory system
Brain stem
Deafness
Hair
Health sciences
Hearing loss
Listening
Neurons
Noise
Otoacoustic emissions
Otolaryngology
Psychology
Speech
Teenagers
Tinnitus
Young adults
Belgium
homeostatic plasticity
ABR
noise-induced tinnitus
young adults
recreational noise exposure
otoacoustic emissions
speech-in-noise testing
speech-in-noise understanding
Online AccessGet full text
ISSN1662-453X
1662-4548
1662-453X
DOI10.3389/fnins.2016.00288

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Abstract Young people are often exposed to high music levels which make them more at risk to develop noise-induced symptoms such as hearing loss, hyperacusis, and tinnitus of which the latter is the symptom perceived the most by young adults. Although, subclinical neural damage was demonstrated in animal experiments, the human correlate remains under debate. Controversy exists on the underlying condition of young adults with normal hearing thresholds and noise-induced tinnitus (NIT) due to leisure noise. The present study aimed to assess differences in audiological characteristics between noise-exposed adolescents with and without NIT. A group of 87 young adults with a history of recreational noise exposure was investigated by use of the following tests: otoscopy, impedance measurements, pure-tone audiometry including high-frequencies, transient and distortion product otoacoustic emissions, speech-in-noise testing with continuous and modulated noise (amplitude-modulated by 15 Hz), auditory brainstem responses (ABR) and questionnaires.Nineteen students reported NIT due to recreational noise exposure, and their measures were compared to the non-tinnitus subjects. No significant differences between tinnitus and non-tinnitus subjects could be found for hearing thresholds, otoacoustic emissions, and ABR results.Tinnitus subjects had significantly worse speech reception in noise compared to non-tinnitus subjects for sentences embedded in steady-state noise (mean speech reception threshold (SRT) scores, respectively -5.77 and -6.90 dB SNR; p = 0.025) as well as for sentences embedded in 15 Hz AM-noise (mean SRT scores, respectively -13.04 and -15.17 dB SNR; p = 0.013). In both groups speech reception was significantly improved during AM-15 Hz noise compared to the steady-state noise condition (p < 0.001). However, the modulation masking release was not affected by the presence of NIT. Young adults with and without NIT did not differ regarding audiometry, OAE, and ABR.However, tinnitus patients showed decreased speech-in-noise reception. The results are discussed in the light of previous findings suggestion NIT may occur in the absence of measurable peripheral damage as reflected in speech-in-noise deficits in tinnitus subjects.
AbstractList Young people are often exposed to high music levels which make them more at risk to develop noise-induced symptoms such as hearing loss, hyperacusis, and tinnitus of which the latter is the symptom perceived the most by young adults. Although, subclinical neural damage was demonstrated in animal experiments, the human correlate remains under debate. Controversy exists on the underlying condition of young adults with normal hearing thresholds and noise-induced tinnitus (NIT) due to leisure noise. The present study aimed to assess differences in audiological characteristics between noise-exposed adolescents with and without NIT. A group of 87 young adults with a history of recreational noise exposure was investigated by use of the following tests: otoscopy, impedance measurements, pure-tone audiometry including high-frequencies, transient and distortion product otoacoustic emissions, speech-in-noise testing with continuous and modulated noise (amplitude-modulated by 15 Hz), auditory brainstem responses (ABR) and questionnaires.Nineteen students reported NIT due to recreational noise exposure, and their measures were compared to the non-tinnitus subjects. No significant differences between tinnitus and non-tinnitus subjects could be found for hearing thresholds, otoacoustic emissions, and ABR results.Tinnitus subjects had significantly worse speech reception in noise compared to non-tinnitus subjects for sentences embedded in steady-state noise (mean speech reception threshold (SRT) scores, respectively -5.77 and -6.90 dB SNR; p = 0.025) as well as for sentences embedded in 15 Hz AM-noise (mean SRT scores, respectively -13.04 and -15.17 dB SNR; p = 0.013). In both groups speech reception was significantly improved during AM-15 Hz noise compared to the steady-state noise condition (p < 0.001). However, the modulation masking release was not affected by the presence of NIT. Young adults with and without NIT did not differ regarding audiometry, OAE, and ABR.However, tinnitus patients showed decreased speech-in-noise reception. The results are discussed in the light of previous findings suggestion NIT may occur in the absence of measurable peripheral damage as reflected in speech-in-noise deficits in tinnitus subjects.
Objectives: Young people are often exposed to high music levels which make them more at risk to develop noise-induced symptoms such as hearing loss, hyperacusis, and tinnitus of which the latter is the symptom perceived the most by young adults. Although, subclinical neural damage was demonstrated in animal experiments, the human correlate remains under debate. Controversy exists on the underlying condition of young adults with normal hearing thresholds and noise-induced tinnitus (NIT) due to leisure noise. The present study aimed to assess differences in audiological characteristics between noise-exposed adolescents with and without NIT. Methods: A group of 87 young adults with a history of recreational noise exposure was investigated by use of the following tests: otoscopy, impedance measurements, pure-tone audiometry including high-frequencies, transient and distortion product otoacoustic emissions, speech-in-noise testing with continuous and modulated noise (amplitude-modulated by 15 Hz), auditory brainstem responses (ABR) and questionnaires.Nineteen students reported NIT due to recreational noise exposure, and their measures were compared to the non-tinnitus subjects. Results: No significant differences between tinnitus and non-tinnitus subjects could be found for hearing thresholds, otoacoustic emissions, and ABR results.Tinnitus subjects had significantly worse speech reception in noise compared to non-tinnitus subjects for sentences embedded in steady-state noise (mean speech reception threshold (SRT) scores, respectively −5.77 and −6.90 dB SNR; p = 0.025) as well as for sentences embedded in 15 Hz AM-noise (mean SRT scores, respectively −13.04 and −15.17 dB SNR; p = 0.013). In both groups speech reception was significantly improved during AM-15 Hz noise compared to the steady-state noise condition ( p < 0.001). However, the modulation masking release was not affected by the presence of NIT. Conclusions: Young adults with and without NIT did not differ regarding audiometry, OAE, and ABR.However, tinnitus patients showed decreased speech-in-noise reception. The results are discussed in the light of previous findings suggestion NIT may occur in the absence of measurable peripheral damage as reflected in speech-in-noise deficits in tinnitus subjects.
OBJECTIVESYoung people are often exposed to high music levels which make them more at risk to develop noise-induced symptoms such as hearing loss, hyperacusis, and tinnitus of which the latter is the symptom perceived the most by young adults. Although, subclinical neural damage was demonstrated in animal experiments, the human correlate remains under debate. Controversy exists on the underlying condition of young adults with normal hearing thresholds and noise-induced tinnitus (NIT) due to leisure noise. The present study aimed to assess differences in audiological characteristics between noise-exposed adolescents with and without NIT.METHODSA group of 87 young adults with a history of recreational noise exposure was investigated by use of the following tests: otoscopy, impedance measurements, pure-tone audiometry including high-frequencies, transient and distortion product otoacoustic emissions, speech-in-noise testing with continuous and modulated noise (amplitude-modulated by 15 Hz), auditory brainstem responses (ABR) and questionnaires.Nineteen students reported NIT due to recreational noise exposure, and their measures were compared to the non-tinnitus subjects.RESULTSNo significant differences between tinnitus and non-tinnitus subjects could be found for hearing thresholds, otoacoustic emissions, and ABR results.Tinnitus subjects had significantly worse speech reception in noise compared to non-tinnitus subjects for sentences embedded in steady-state noise (mean speech reception threshold (SRT) scores, respectively -5.77 and -6.90 dB SNR; p = 0.025) as well as for sentences embedded in 15 Hz AM-noise (mean SRT scores, respectively -13.04 and -15.17 dB SNR; p = 0.013). In both groups speech reception was significantly improved during AM-15 Hz noise compared to the steady-state noise condition (p < 0.001). However, the modulation masking release was not affected by the presence of NIT.CONCLUSIONSYoung adults with and without NIT did not differ regarding audiometry, OAE, and ABR.However, tinnitus patients showed decreased speech-in-noise reception. The results are discussed in the light of previous findings suggestion NIT may occur in the absence of measurable peripheral damage as reflected in speech-in-noise deficits in tinnitus subjects.
Objectives. Young people are often exposed to high music levels which make them more at risk to develop noise-induced symptoms such as hearing loss, hyperacusis and tinnitus of which the latter is the symptom perceived the most by young adults. Although subclinical neural damage was demonstrated in animal experiments, the human correlate remains under debate. Controversy exists on the underlying condition of young adults with normal hearing thresholds and noise-induced tinnitus due to leisure noise. The present study aimed to assess differences in audiological characteristics between noise-exposed adolescents with and without noise-induced tinnitus (NIT). Methods. A group of 87 young adults with a history of recreational noise exposure was investigated by use of the following tests: otoscopy, impedance measurements, pure-tone audiometry including high-frequencies, transient and distortion product otoacoustic emissions, speech-in-noise testing with continuous and modulated noise (amplitude-modulated by 15Hz), auditory brainstem responses (ABR) and questionnaires. Nineteen students reported NIT due to recreational noise exposure, and their measures were compared to the non-tinnitus subjects. Results. No significant differences between tinnitus and non-tinnitus subjects could be found for hearing thresholds, otoacoustic emissions and ABR results. Tinnitus subjects had significantly worse speech reception in noise compared to non-tinnitus subjects for sentences embedded in steady-state noise (mean speech reception threshold (SRT) scores respectively -5.77 dB SNR and -6.90 dB SNR; p = 0.025) as well as for sentences embedded in 15 Hz AM-noise (mean SRT scores respectively -13.04 dB SNR and -15.17 dB SNR; p = 0.013). In both groups speech reception was significantly improved during AM-15Hz noise compared to the steady-state noise condition (p < 0.001). However, the modulation masking release was not affected by the presence of NIT. Conclusions. Persons with and without NIT did not differ regarding audiometry, OAE and ABR. However, tinnitus patients showed decreased speech-in-noise reception. The results are discussed in the light of previous findings suggestion noise-induced tinnitus may occur in the absence of measurable peripheral damage as reflected in speech-in-noise deficits in tinnitus subjects.
Author Rabau, Sarah
Gilles, Annick
Van de Heyning, Paul
Schlee, Winny
Fransen, Erik
Wouters, Kristien
AuthorAffiliation 4 University Department of Psychology, University of Konstanz Konstanz, Germany
5 University Department of Scientific Coordination and Biostatistics, Antwerp University Hospital Edegem, Belgium
3 Department of Human and Social Welfare, University College Ghent Ghent, Belgium
6 Department of Medical Genetics, Faculty of Medicine and Health Sciences, University of Antwerp Wilrijk, Belgium
1 University Department of Otorhinolaryngology and Head and Neck Surgery, Antwerp University Hospital Edegem, Belgium
2 Department of Translational Neurosciences, Faculty of Medicine and Health Sciences, University of Antwerp Wilrijk, Belgium
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– name: 3 Department of Human and Social Welfare, University College Ghent Ghent, Belgium
– name: 4 University Department of Psychology, University of Konstanz Konstanz, Germany
– name: 6 Department of Medical Genetics, Faculty of Medicine and Health Sciences, University of Antwerp Wilrijk, Belgium
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/27445661$$D View this record in MEDLINE/PubMed
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ContentType Journal Article
Copyright 2016. This work is licensed under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
Copyright © 2016 Gilles, Schlee, Rabau, Wouters, Fransen and Van de Heyning. 2016 Gilles, Schlee, Rabau, Wouters, Fransen and Van de Heyning
Copyright_xml – notice: 2016. This work is licensed under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
– notice: Copyright © 2016 Gilles, Schlee, Rabau, Wouters, Fransen and Van de Heyning. 2016 Gilles, Schlee, Rabau, Wouters, Fransen and Van de Heyning
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Keywords homeostatic plasticity
ABR
noise-induced tinnitus
young adults
recreational noise exposure
otoacoustic emissions
speech-in-noise testing
speech-in-noise understanding
Language English
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Reviewed by: Larry Roberts, McMaster University, Canada; Brandon Paul, McMaster University, Canada
Edited by: Marc Schönwiesner, University of Montreal, Canada
This article was submitted to Auditory Cognitive Neuroscience, a section of the journal Frontiers in Neuroscience
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Snippet Young people are often exposed to high music levels which make them more at risk to develop noise-induced symptoms such as hearing loss, hyperacusis, and...
Objectives. Young people are often exposed to high music levels which make them more at risk to develop noise-induced symptoms such as hearing loss,...
OBJECTIVESYoung people are often exposed to high music levels which make them more at risk to develop noise-induced symptoms such as hearing loss, hyperacusis,...
Objectives: Young people are often exposed to high music levels which make them more at risk to develop noise-induced symptoms such as hearing loss,...
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SourceType Open Access Repository
Aggregation Database
Index Database
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StartPage 288
SubjectTerms Adolescents
Auditory system
Brain stem
Deafness
Hair
Health sciences
Hearing loss
Listening
Neurons
Noise
Otoacoustic emissions
Otolaryngology
Psychology
Speech
Teenagers
Tinnitus
Young adults
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Title Decreased Speech-In-Noise Understanding in Young Adults with Tinnitus
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Volume 10
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