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Investigating the effects of noise exposure on self-report, behavioral and electrophysiological indices of hearing damage in musicians with normal audiometric thresholds
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| 2 |
Extended high frequency hearing and speech perception implications in adults and children
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In: Hear Res (2020)
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| 3 |
Effects of Age and Noise Exposure on Proxy Measures of Cochlear Synaptopathy
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| 4 |
Acoustic middle-ear-muscle-reflex thresholds in humans with normal audiograms:No relations to tinnitus, speech perception in noise, or noise exposure
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| 5 |
Timing Of Primary Surgery for cleft palate (TOPS): protocol for a randomised trial of palate surgery at 6 months versus 12 months of age
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| 6 |
Timing Of Primary Surgery for cleft palate (TOPS): protocol for a randomised trial of palate surgery at 6 months versus 12 months of age.
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| 7 |
Timing Of Primary Surgery for cleft palate (TOPS): protocol for a randomised trial of palate surgery at 6 months versus 12 months of age.
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| 8 |
Impaired speech perception in noise with a normal audiogram:No evidence for cochlear synaptopathy and no relation to lifetime noise exposure
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| 9 |
Impaired speech perception in noise with a normal audiogram: No evidence for cochlear synaptopathy and no relation to lifetime noise exposure
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| 10 |
No evidence for enhanced processing of speech that is low-pass filtered near the edge frequency of cochlear dead regions in children
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| 11 |
Tinnitus and sleep difficulties after cochlear implantation
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| 12 |
Effects of broadband noise on cortical evoked auditory responses at different loudness levels in young adults
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| 13 |
The effect of low-pass filtering on identification of nonsense syllables in quiet by school-age children with and without cochlear dead regions
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| 14 |
Listening effort at signal-to-noise ratios that are typical of the school classroom
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| 15 |
Reorganization of the Adult Auditory System: Perceptual and Physiological Evidence From Monaural Fitting of Hearing Aids
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Abstract:
Changes in the sensory environment modify our sensory experience and may result in experience-related or learning-induced reorganization within the central nervous system. Hearing aids change the sensory environment by stimulating a deprived auditory system; therefore, they may be capable of inducing changes within the central auditory system. Examples of studies that have shown hearing aid induced perceptual and/or physiological changes in the adult human auditory system are discussed. Evidence in the perceptual domain is provided by studies that have investigated (a) speech perception, (b) intensity discrimination, and (c) loudness perception. Evidence in the physiological domain is provided by studies that have investigated acoustic reflex thresholds and event-related potentials. Despite the controversy in the literature concerning the rate, extent, and clinical significance of the acclimatization effect, there is irrefutable evidence that the deprived auditory system of some listeners can be modified with hearing aid experience.
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Keyword:
Article
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URL: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4111427
https://doi.org/10.1177/1084713808316173
http://www.ncbi.nlm.nih.gov/pubmed/18567590
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| 16 |
Reorganization of the Adult Auditory System: Perceptual and Physiological Evidence From Monaural Fitting of Hearing Aids
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