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Journal Abstract Search

316 related items for PubMed ID: 16497456

  • 1. Effects of exposing DBA/2J mice to a high-frequency augmented acoustic environment on the cochlea and anteroventral cochlear nucleus.
    Willott JF, Bosch JV, Shimizu T, Ding DL.
    Hear Res; 2006; 216-217():138-45. PubMed ID: 16497456
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  • 4. The effects of acoustic environment after traumatic noise exposure on hearing and outer hair cells.
    Tanaka C, Chen GD, Hu BH, Chi LH, Li M, Zheng G, Bielefeld EC, Jamesdaniel S, Coling D, Henderson D.
    Hear Res; 2009 Apr; 250(1-2):10-8. PubMed ID: 19450428
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  • 7. Effects of exposing C57BL/6J mice to high- and low-frequency augmented acoustic environments: auditory brainstem response thresholds, cytocochleograms, anterior cochlear nucleus morphology and the role of gonadal hormones.
    Willott JF, VandenBosche J, Shimizu T, Ding DL, Salvi R.
    Hear Res; 2008 Jan; 235(1-2):60-71. PubMed ID: 18077117
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  • 8. The effect of an age-related hearing loss gene (Ahl) on noise-induced hearing loss and cochlear damage from low-frequency noise.
    Harding GW, Bohne BA, Vos JD.
    Hear Res; 2005 Jun; 204(1-2):90-100. PubMed ID: 15925194
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  • 9. Prostaglandin E receptor subtype EP4 agonist protects cochleae against noise-induced trauma.
    Hori R, Nakagawa T, Sugimoto Y, Sakamoto T, Yamamoto N, Hamaguchi K, Ito J.
    Neuroscience; 2009 Jun 02; 160(4):813-9. PubMed ID: 19303430
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  • 10. Exposure to an augmented acoustic environment alters auditory function in hearing-impaired DBA/2J mice.
    Turner JG, Willott JF.
    Hear Res; 1998 Apr 02; 118(1-2):101-13. PubMed ID: 9606065
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  • 11. Acoustic trauma induces reemergence of the growth- and plasticity-associated protein GAP-43 in the rat auditory brainstem.
    Michler SA, Illing RB.
    J Comp Neurol; 2002 Sep 23; 451(3):250-66. PubMed ID: 12210137
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  • 12. Degeneration in the cochlea after noise damage: primary versus secondary events.
    Bohne BA, Harding GW.
    Am J Otol; 2000 Jul 23; 21(4):505-9. PubMed ID: 10912695
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  • 13. Effects of sex, gonadal hormones, and augmented acoustic environments on sensorineural hearing loss and the central auditory system: insights from research on C57BL/6J mice.
    Willott JF.
    Hear Res; 2009 Jun 23; 252(1-2):89-99. PubMed ID: 19114100
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  • 14. Modulation of prepulse inhibition by an augmented acoustic environment in DBA/2J mice.
    Jeskey JE, Willott JF.
    Behav Neurosci; 2000 Oct 23; 114(5):991-7. PubMed ID: 11085614
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  • 15. Effects of a high-frequency augmented acoustic environment on parvalbumin immunolabeling in the anteroventral cochlear nucleus of DBA/2J and C57BL/6J mice.
    Willott JF, Vandenbosche J, Shimizu T.
    Hear Res; 2010 Mar 23; 261(1-2):36-41. PubMed ID: 20060461
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  • 16. Consequences of noise- or styrene-induced cochlear damages on glutamate decarboxylase levels in the rat inferior colliculus.
    Pouyatos B, Morel G, Lambert-Xolin AM, Maguin K, Campo P.
    Hear Res; 2004 Mar 23; 189(1-2):83-91. PubMed ID: 14987755
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  • 17. GFAP aggregates in the cochlear nerve increase the noise vulnerability of sensory cells in the organ of Corti in the murine model of Alexander disease.
    Masuda M, Tanaka KF, Kanzaki S, Wakabayashi K, Oishi N, Suzuki T, Ikenaka K, Ogawa K.
    Neurosci Res; 2008 Sep 23; 62(1):15-24. PubMed ID: 18602179
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  • 18. Adenosine receptors regulate susceptibility to noise-induced neural injury in the mouse cochlea and hearing loss.
    Vlajkovic SM, Ambepitiya K, Barclay M, Boison D, Housley GD, Thorne PR.
    Hear Res; 2017 Mar 23; 345():43-51. PubMed ID: 28034618
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  • 20. Hyperbaric oxygenation with corticoid in experimental acoustic trauma.
    Fakhry N, Rostain JC, Cazals Y.
    Hear Res; 2007 Aug 23; 230(1-2):88-92. PubMed ID: 17590548
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