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Literature DB >> 17141991

Mechanisms of noise-induced hearing loss indicate multiple methods of prevention.

Colleen G Le Prell¹, Daisuke Yamashita, Shujiro B Minami, Tatsuya Yamasoba, Josef M Miller.

Abstract

Recent research has shown the essential role of reduced blood flow and free radical formation in the cochlea in noise-induced hearing loss (NIHL). The amount, distribution, and time course of free radical formation have been defined, including a clinically significant late formation 7-10 days following noise exposure, and one mechanism underlying noise-induced reduction in cochlear blood flow has finally been identified. These new insights have led to the formulation of new hypotheses regarding the molecular mechanisms of NIHL; and, from these, we have identified interventions that prevent NIHL, even with treatment onset delayed up to 3 days post-noise. It is essential to now assess the additive effects of agents intervening at different points in the cell death pathway to optimize treatment efficacy. Finding safe and effective interventions that attenuate NIHL will provide a compelling scientific rationale to justify human trials to eliminate this single major cause of acquired hearing loss.

Entities: Disease Species

Mesh：

Substances：

Year: 2006 PMID： 17141991 PMCID： PMC1995566 DOI： 10.1016/j.heares.2006.10.006

Source DB: PubMed Journal: Hear Res ISSN： 0378-5955 Impact factor: 3.208

307 in total

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Journal: Hear Res Date: 2002-01 Impact factor: 3.208

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Authors: Peter M Rabinowitz; John Pierce Wise; Ben Hur Mobo; Peter G Antonucci; Carol Powell; Martin Slade
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7. A peptide inhibitor of c-Jun N-terminal kinase protects against both aminoglycoside and acoustic trauma-induced auditory hair cell death and hearing loss.

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Journal: J Neurosci Date: 2003-09-17 Impact factor: 6.167

8. Caspase activation in hair cells of the mouse utricle exposed to neomycin.

Authors: Lisa L Cunningham; Alan G Cheng; Edwin W Rubel
Journal: J Neurosci Date: 2002-10-01 Impact factor: 6.167

9. Time course of efferent fiber and spiral ganglion cell degeneration following complete hair cell loss in the chinchilla.

Authors: Sandra L McFadden; Dalian Ding; Haiyan Jiang; Richard J Salvi
Journal: Brain Res Date: 2004-01-30 Impact factor: 3.252

10. Glial cell line-derived neurotrophic factor and antioxidants preserve the electrical responsiveness of the spiral ganglion neurons after experimentally induced deafness.

Authors: Jun Maruyama; Josef M Miller; Mats Ulfendahl
Journal: Neurobiol Dis Date: 2007-08-11 Impact factor: 5.996

Mechanisms of noise-induced hearing loss indicate multiple methods of prevention.

Review 1. The isoprostanes: unique bioactive products of lipid peroxidation.

2. Glucocorticoid receptors in the mammalian inner ear: RU 28362 binding sites.

3. Blockade of c-Jun N-terminal kinase pathway attenuates gentamicin-induced cochlear and vestibular hair cell death.

4. Antioxidant status and hearing function in noise-exposed workers.

5. Stria vascularis pathology and recovery following noise exposure.

6. Calcineurin-mediated BAD dephosphorylation activates the caspase-3 apoptotic cascade in traumatic spinal cord injury.

7. A peptide inhibitor of c-Jun N-terminal kinase protects against both aminoglycoside and acoustic trauma-induced auditory hair cell death and hearing loss.

8. Caspase activation in hair cells of the mouse utricle exposed to neomycin.

9. Time course of efferent fiber and spiral ganglion cell degeneration following complete hair cell loss in the chinchilla.

10. Growth factor interactions in cultures of dissociated adult acoustic ganglia: neuronotrophic effects.

1. Old mice lacking high-affinity nicotine receptors resist acoustic trauma.

2. An unheard benefit of phosphodiesterase inhibition.

3. Modification of digital music files for use in human temporary threshold shift studies.

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5. Effects of antioxidants on auditory nerve function and survival in deafened guinea pigs.

6. Free radical scavengers vitamins A, C, and E plus magnesium reduce noise trauma.

7. 'Ecstasy' enhances noise-induced hearing loss.

Review 8. Recent findings and emerging questions in cochlear noise injury.

9. Role of cysteinyl leukotriene signaling in a mouse model of noise-induced cochlear injury.

10. Glial cell line-derived neurotrophic factor and antioxidants preserve the electrical responsiveness of the spiral ganglion neurons after experimentally induced deafness.