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Research: Laboratory Animal
Home >> Resources >> Hearing Conservation Bibliography >> Research: Laboratory Animal

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Correlations among distortion product otoacoustic emissions, thresholds, and sensory cell impairments.
Avan P, Bonfils P, Mom T. (2001) Noise Health 3(12):1-17.

Hair Cell Loss From Acoustic Trauma in Chloroquine-Treated Red, Black and Albino Guinea Pigs
Barrenas, M., Audiology, 36(4),187-200, July-August 1997.

Effects of Nimodipine On Noise-Induced Hearing Loss.
Boettcher, F. A.; Caldwell, R. K.; Gratton, M. A.; White, D. R., and Miles, L. R. Hear Res. 1998 Jul; 121(1-2):139-46.

Protection Against Noise Trauma by Sound Conditioning.
Canlon, B., Ear Nose Throat J, 76(4),248-50, 253-5, 1997 Apr.

Cochlear Mechanisms of Frequency and Intensity Coding.
Chatterjee, M. and Zwislocki, J., Hearing Research, 111(1-2),65-75, September 1997.

Low-Frequency Modulation of Inner Hair Cell and Organ of Corti Responses in the Guinea Pig Cochlea.
Cheatham, M. A. and Dallos, P., Hear Res, 108(1-2),191-212, 1997 Jun.

Potentiation of noise-induced hearing loss by low concentrations of hydrogen cyanide in rats.
Fechter LD, Chen GD, Johnson DL. (2002) Toxicol Sci 66(1):131-138.

Auditory Hair Cell Regeneration/Repair and Protection: A Review and Future Directions.
Feghali, J. G.; Lefebvre, P. P.; Staecker, H.; Kopke, R.; Frenz, D. A.; Malgrange, B.; Liu, W.; Moonen, G.; Ruben, R. J., and Van De Water, T. R. Mammalian Ear Nose Throat J. 1998 Apr; 77(4):276, 280, 282-5.

Temporary shift in masked hearing thresholds in odontocetes after exposure to single underwater impulses from seismic watergun.
Finneran JJ, Schlundt CE, Dear R, Carder DA, Ridgway SH. (2002) JASA 111(6):2929-2940.

An In Vitro Model for Acoustic Overstimulation
Fridberger, A., Van Maarseveen, J.T., and Ulfendahl, M., Acta Otolaryngol, 118(3):352-61, Jun 1998.

Relations among early postexposure noise-induced threshold shifts and permanent threshold shifts in the chinchilla. J
Hamernik RP, Ahroon WA, Patterson JH, Qiu W. (2002) ASA 111(1):320-326.

Effects of reversible noise exposure on the suppression tuning of rabbit distortion-product otoacoustic emissions.
Howard MA, Stagner BB, Lonsbury-Martin BL, Martin GK. (2002) ASA 111(1):285-296.

Nimodipine at a Dose That Slows ABR Latencies Does Not Protect the Ear Against Noise.
Ison, J. R., Payman, G. H., Palmer, M. J., and Walton, J. P., Hear Res, 106(1-2),179-83, 1997 Apr.

GDNF Protects The Cochlea Against Noise Damage.
Keithley, E. M.; Ma, C. L.; Ryan, A. F.; Louis, J. C., and Magal, E. Rapid Science Ltd. 1998; 9(10):2183-2187.

GDNF Protects the Cochlea Against Noise Damage
Keithley, E.M., Ma, C. L., Ryan, A. F., Louis, J.C., and Magal, E., Neuroreport, 9(10):2183-7, Jul 13, 1998.

Deficiency in PlasmMembrane Calcium ATPase Isoform 2 Increases Susceptibility to Noise-Induced Hearing Loss in Mice.
Kozel PJ Davis RR Krieg Jr EF Shull GE Erway LC. (2002) Hear Res 164(1-2):231-239.

Effect of long-term, low-level noise exposure on hearing thresholds, DPOAE and suppression of SPOAE in rats.
Lund SP, Jepsen GB, Simonsen L. (2001) Noise Health 3(12):33-42.

Reverse Middle-Ear Transfer Function in the Guinea Pig Measured With Cubic Difference Tones.
Magnan, P., Avan, P., Dancer, A., Smurzynski, J., and Probst, R., Hear Res, 107(1-2),41-5, 1997 May.

Functional and morphological effects of styrene on auditory system of rat.
Makitie A, Pirvola U, Pyykko M, Sakakibara H, Riihimaki V, Ylikoski J. (2002) Arch Toxicol 76(1):40-47.

Changes in Dorsal Cochlear Nucleus Blood Flow During Noise Exposure.
Mandal, A., Kaltenbach, J. A., and Quirk, W. S., Hear Res, 106(1-2),1-8, 1997 Apr.

Low-Frequency 'Conditioning' Provides Long-Term Protection From Noise-Induced Threshold Shifts in Chinchillas.
McFadden, S. L., Henderson, D., and Shen, Y. H., Hear Res, 103(1-2),142-50, 1997 Jan.

Age-Related Decline of Auditory Function in the Chinchilla
Mcfadden, S., Campo, P., Quaranta, N., and Henderson, D., Hearing Research, 111(1-2),114-126, Sept. 1997.

Effects of Acoustic Trauma on the Representation of the Vowel /Epsilon/ in Cat Auditory Nerve Fibers.
Miller, R. L., Schilling, J. R., Franck, K. R., and Young, E. D., J Acoust Soc Am, 101(6),3602-16, 1997 Jun.

Excitotoxicity and repair of Cochlear Synapses after Noise-Trauma Induced Hearing loss
Puel, J. L., Ruel, J., Gervais d'Aldin, C., and Pujol, R., Neuroreport, 9(9):2109-14, Jun 22, 1998.

Excitotoxicity and Repair of Cochlear Synapses after Noise-Trauma Induced Hearing Loss.
Puel, J. L.; Ruel, J.; Gervais, C, and Pujol, R. Neuroreport. 1998 Jun; 9(9):2109-14.

The "Toughening" Phenomenon in Rat's Auditory Organ
Pukkila, M., Zhai, S., Virkkala, J., Pirvola, U., and Ylikoski, J., Acta Oto-Laryngologica, Supplement 529(59-62, 1996.

Remote Masking in Noise-Exposed Chinchillas.
Quaranta, A., McFadden, S. L., Henderson, D., and Sallustio, V., Acta Otolaryngol (Stockh), 117(2),226-8, 1997 Mar.

Survey of Noise Exposure Level of National Forestry Workers
Tada, K., Watanae, S., Nishiyama, K., Fukuchi, Y., and Miyakita, T., Sangyo Eiseigaku Zasshi, 40(3)85-90, May 1998.

Electron Probe X-Ray Microanalysis of Otoconia in Guinea Pig Inner Ear: a Comparison Between Young and Old Animals
Takumida, M. and Zhang, D. M., Acta Oto-Laryngologica, 117(4),529-537, July 1997.

Oxidative DNdamage is associated with intense noise exposure in rat.
Van Campen LE, Murphy WJ, Franks JR, Mathias PI, Toraason MA. (2002) Hear Res 164(1-2):29-38.

Restraint stress and protection from acoustic injury in mice.
Wang Y and Liberman MC. (2002) Hear Res 165(1-2):96-102.

Influence of Intense Sound Exposure on Glutathione Synthesis in the Cochlea.
Yamasoba, T.; Harris, C.; Shoji, F.; Lee, R. J.; Nuttall, A. L., and Miller, J. M. Brain Res. 1998 Aug; 804(1):72-8.

Attenuation of Cochlear Damage from Noise Trauma by an Iron Chelator, A Free Radical Scavenger and Glial Cell Line-Derived Neurotrophic Factor In Vivo.
Yamasoba, T.; Schacht, J.; Shoji, F., and Miller, J. M. Brain Res. 1999 Jan; 815(2):317-25.

The Influence of the Cochlear Efferent System on Chronic Acoustic Trauma.
Zheng, X. Y., Henderson, D., Hu, B. H., Ding, D. L., and McFadden, S. L., Hear Res, 107(1-2),147-59, 1997 May.

The Role of the Cochlear Efferent System in Acquired Resistance to Noise-Induced Hearing Loss.
Zheng, X. Y., Henderson, D., McFadden, S. L., and Hu, B. H., Hear Res, 104(1-2),191-203, 1997 Feb.

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