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Pathways for protection from noise induced hearing loss

Le Prell C G, Dolan D F, Schacht J, Miller J M, Lomax M I, Altschuler R A

Year : 2003| Volume: 5| Issue : 20 | Page no: 1-17

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[Pubmed]  [Google Scholar]
2 Exposure to industrial wideband noise increases connective tissue in the rat liver
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16 Bandwidth dependency of cochlear centrifugal pathways in modulating hearing desensitization caused by loud sound
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