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Noise-Induced Hearing Loss: The Potential for Otoprotection

2011; American Speech–Language–Hearing Association; Volume: 15; Issue: 1 Linguagem: Inglês

10.1044/hhd15.1.25

1940-7661

Colleen G. Le Prell,

Noise Effects and Management

No AccessPerspectives on Hearing and Hearing Disorders: Research and DiagnosticsArticle1 Apr 2011Noise-Induced Hearing Loss: The Potential for Otoprotection Colleen Le Prell Colleen Le Prell Google Scholar More articles by this author https://doi.org/10.1044/hhd15.1.25 SectionsAboutFull TextPDF ToolsAdd to favoritesDownload CitationTrack Citations ShareFacebookTwitterLinked In Abstract Noise-induced hearing loss (NIHL) is a significant clinical, social, and economic issue. Although we once thought virtually all NIHL was a consequence of mechanical damage to cells in the inner ear, we now know that intense metabolic activity drives the formation of free radicals (short-lived, unstable, highly reactive clusters of atoms) in the inner ear. Studies in animals clearly have shown that free radicals formed during and after noise contribute importantly to NIHL, and many laboratories have demonstrated that free radical scavengers (“antioxidants”) reduce NIHL in animal subjects. Our group, including investigators at multiple institutions, specifically has shown the combination of beta-carotene, vitamins C and E, and magnesium is highly effective in preventing NIHL and sensory cell death in guinea pigs and mice. Others have shown benefit in animal models with agents such as N-acytelcysteine, D-methionine, and ebselen. Use of free radical scavengers or antioxidants to prevent noise-induced deficits thus has become a clinical research goal. Given the multitude of intracellular events that occur during and after noise, it is possible that combinations of agents will ultimately prove to be a useful therapeutic approach. Translational investigations are essential to confirm potential utility of these agents in the human inner ear. References Abaamrane, L., Raffin, F., Gal, M., Avan, P., & Sendowski, I. (2009). Long-term administration of magnesium after acoustic trauma caused by gunshot noise in guinea pigs.Hearing Research, 247(2), 137–145. 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Role of glutathione in protection against noise-induced hearing loss.Brain Research, 784(1-2), 82–90. Google Scholar Additional Resources FiguresReferencesRelatedDetailsCited ByAmerican Journal of Audiology26:3 (259-267)18 Sep 2017A Preliminary Study of a Spanish Graphic Novella Targeting Hearing Loss PreventionMark Guiberson and Emily Wakefield Volume 15Issue 1April 2011Pages: 25-33 Get Permissions Add to your Mendeley library History Published in issue: Apr 1, 2011 Metrics Downloaded 30 times Topicsasha-topicsleader-topicsasha-sigsasha-article-typesCopyright & Permissions© 2011 American Speech-Language-Hearing AssociationPDF DownloadLoading ...