Effects of Noise Exposure on the Vestibular System: A Systematic Review

Despite our understanding of the impact of noise-induced damage to the auditory system, much less is known about the impact of noise exposure on the vestibular system. In this article, we review the anatomical, physiological, and functional evidence for noise-induced damage to peripheral and central...

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Published inFrontiers in neurology Vol. 11; p. 593919
Main Authors Stewart, Courtney Elaine, Holt, Avril Genene, Altschuler, Richard A, Cacace, Anthony Thomas, Hall, Courtney D, Murnane, Owen D, King, W Michael, Akin, Faith W
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Media S.A 25.11.2020
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Summary:Despite our understanding of the impact of noise-induced damage to the auditory system, much less is known about the impact of noise exposure on the vestibular system. In this article, we review the anatomical, physiological, and functional evidence for noise-induced damage to peripheral and central vestibular structures. Morphological studies in several animal models have demonstrated cellular damage throughout the peripheral vestibular system and particularly in the otolith organs; however, there is a paucity of data on the effect of noise exposure on human vestibular end organs. Physiological studies have corroborated morphological studies by demonstrating disruption across vestibular pathways with otolith-mediated pathways impacted more than semicircular canal-mediated pathways. Similar to the temporary threshold shifts observed in the auditory system, physiological studies in animals have suggested a capacity for recovery following noise-induced vestibular damage. Human studies have demonstrated that diminished sacculo-collic responses are related to the severity of noise-induced hearing loss, and dose-dependent vestibular deficits following noise exposure have been corroborated in animal models. Further work is needed to better understand the physiological and functional consequences of noise-induced vestibular impairment in animals and humans.
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Reviewed by: Leonardo Manzari, MSA ENT Academy Center, Italy; Ian S. Curthoys, The University of Sydney, Australia
This article was submitted to Neuro-Otology, a section of the journal Frontiers in Neurology
Edited by: Michael Strupp, Ludwig Maximilian University of Munich, Germany
ISSN:1664-2295
1664-2295
DOI:10.3389/fneur.2020.593919