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Original Article

Immediate Noise Effects on Cochlear Vasculature in the Guinea Pig

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Pages 237-246 | Received 14 Apr 1980, Published online: 08 Jul 2009

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Read on this site (12)

C Miani, G Bertino, Mp Francescato, Pe di Prampero & A Staffieri. (1996) Temporary Threshold Shift Induced by Physical Exercise. Scandinavian Audiology 25:3, pages 179-186.
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Jorge Latoni, Bhagyalakshmi Shivapuja, Michael D. Seidman & Wayne S. Quirk. (1996) Pentoxifylline Maintains Cochlear Microcirculation and Attenuates Temporary Threshold Shifts Following Acoustic Overstimulation. Acta Oto-Laryngologica 116:3, pages 388-394.
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Helaine M. Alessio & Kathleen M. Hutchinson. (1992) Cardiovascular Adjustments to High- And Low-Intensity Exercise do not Regulate Temporary Threshold Shifts. Scandinavian Audiology 21:3, pages 163-172.
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H. A. Dengerink, F. L. Lindgren & A. Axelsson. (1992) The Interaction of Smoking and Noise on Temporary Threshold Shifts. Acta Oto-Laryngologica 112:6, pages 932-938.
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Kathleen M. Hutchinson, Helaine M. Alessio, Melissa Spadafore & Robin C. Adair. (1991) Effects of Low-Intensity Exercise and Noise Exposure on Temporary Threshold Shift. Scandinavian Audiology 20:2, pages 121-127.
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Yoshiaki Nakai & Haruhiko Masutani. (1988) Noise-induced Vasoconstriction in the Cochlea. Acta Oto-Laryngologica 105:sup447, pages 23-27.
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Harold A. Dengerink, Alf Axelsson, John Wright & Josef Miller. (1987) Histological Measures of Cochlear Blood Flow A Validation Study. Acta Oto-Laryngologica 104:1-2, pages 113-118.
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M. Hillerdal, B. Jansson, B. Engström, E. Hultcrantz & E. Borg. (1987) Cochlear blood flow in Noise-damaged ears. Acta Oto-Laryngologica 104:3-4, pages 270-278.
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Harold Dengerink, Josef Miller, Alf Axelsson, Dianne Vertes & Pamela Van Dalfsen. (1985) The Recovery of Vascular Changes Following Brief Noise Exposure. Acta Oto-Laryngologica 100:1-2, pages 19-25.
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C. Jones-Mumby And & A. Axelsson. (1984) The Effects of Fatal Hemorrhage on the Cochlear Vasculature. Acta Oto-Laryngologica 97:3-4, pages 251-256.
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I. Pyykkö & J. Starck. (1982) Vibration Syndrome in the Etiology of Occupational Hearing Loss. Acta Oto-Laryngologica 93:sup386, pages 296-300.
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D. Vertes, A. Axelsson, J. Miller & G. Liden. (1981) Cochlear Vascular and Electrophysiological Effects in the Guinea Pig to 4 Khz Pure Tones of Different Durations and Intensities. Acta Oto-Laryngologica 92:1-6, pages 15-24.
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Articles from other publishers (36)

Chaoyong Tian & Dingjun Zha. (2022) Sympathetic Nervous System Regulation of Auditory Function. Audiology and Neurotology 27:2, pages 93-103.
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Vivian F. Kaul, Sarah Kidwai, Adam Lupicki & Maura Cosetti. (2019) An unusual case of sudden sensorineural hearing loss after cycling class. American Journal of Otolaryngology 40:4, pages 605-608.
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Ruikang K. Wang & Hrebesh M. Subhash. 2012. Microcirculation Imaging. Microcirculation Imaging 197 258 .
Woo-Seok Kang & Jong-Woo Chung. (2010) Ingestion of Korean Red Ginseng after Noise Exposure Can Potentiate Rapid Recovery of Hearing in Mice. Journal of Ginseng Research 34:4, pages 336-341.
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Mayumi Yoshioka, Yasue Uchida, Saiko Sugiura, Fujiko Ando, Hiroshi Shimokata, Hideki Nomura & Tsutomu Nakashima. (2010) The impact of arterial sclerosis on hearing with and without occupational noise exposure: A population-based aging study in males. Auris Nasus Larynx 37:5, pages 558-564.
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Niloy Choudhury, Fangyi Chen, Xiaorui Shi, Alfred L Nuttall & Ruikang K Wang. (2010) Volumetric Imaging of Blood Flow Within Cochlea in Gerbil In Vivo . IEEE Journal of Selected Topics in Quantum Electronics 16:3, pages 524-529.
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. (2009) The Protective Effect of Orally Ingested Korean Red Ginseng on the Noise Induced Hearing Loss in Mice. Journal of Ginseng Research 33:2, pages 104-110.
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Marlene Escher Boger, Anadergh Barbosa-Branco & Áurea Canha Ottoni. (2009) The noise spectrum influence on Noise-Induced Hearing Loss prevalence in workers. Brazilian Journal of Otorhinolaryngology 75:3, pages 328-334.
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Chiou-Jong CHEN, Yu-Tung DAI, Yih-Min SUN, Yi-Chang LIN & Yow-Jer JUANG. (2007) Evaluation of Auditory Fatigue in Combined Noise, Heat and Workload Exposure. Industrial Health 45:4, pages 527-534.
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Minka Hildesheimer, Yael Henkin, Ade Pye, Shirly Heled, Emma Sahartov, Esther L Shabtai & Chava Muchnik. (2002) Bilateral superior cervical sympathectomy and noise-induced, permanent threshold shift in guinea pigs. Hearing Research 163:1-2, pages 46-52.
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Timothy D. Doerr, Brian W. Blakley, David A. Komjathy & Wayne S. Quirk. (2001) Local Vestibular Blood Flow and Systemic Vascular Responses to Natural Vestibular Stimulation in the Mongolian Gerbil. Otology & Neurotology 22:2, pages 242-248.
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MICHAEL D. SEIDMAN, WAYNE S. QUIRK & NAJEEB A. SHIRWANY. (2006) Mechanisms of Alterations in the Microcirculation of the Cochlea. Annals of the New York Academy of Sciences 884:1, pages 226-232.
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Benzion Goldwyn, Mumtaz J. Khan, Bhagyalakshmi G. Shivapuja, Michael D. Seidman & Wayne S. Quirk. (2016) Sarthran Preserves Cochlear Microcirculation and Reduces Temporary Threshold Shifts after Noise Exposure. Otolaryngology–Head and Neck Surgery 118:5, pages 576-583.
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FRED W. KOLKHORST, JOSEPH J. SMALDINO, STACY C. WOLF, LISA R. BATTANI, BRUCE L. PLAKKE, SHARON HUDDLESTON & LARRY D. HENSLEY. (1998) Influence of fitness on susceptibility to noise-induced temporary threshold shift. Medicine &amp Science in Sports &amp Exercise 30:2, pages 289-293.
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Jürgen Lautermann, Sherry A. Crann, John McLaren & Jochen Schacht. (1997) Glutathione-dependent antioxidant systems in the mammalian inner ear: effects of aging, ototoxic drugs and noise. Hearing Research 114:1-2, pages 75-82.
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Benzion G. Goldwyn & Wayne S. Quirk. (2009) Calcium Channel Blockade Reduces Noise‐Induced Vascular Permeability in Cochlear Stria Vascularis. The Laryngoscope 107:8, pages 1112-1116.
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Bo Hua Hu & Si Chang Jiang. (1995) Effect of focal cochlear vascular lesion on endocochlear potential in guinea pigs. Hearing Research 89:1-2, pages 69-75.
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Wayne S. Quirk, Bhagyalakshmi G. Shivapuja, Craig L. Schwimmer & Michael D. Seidman. (1994) Lipid peroxidation inhibitor attenuates noise-induced temporary threshold shifts. Hearing Research 74:1-2, pages 217-220.
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Michael D. Seidman, Bhagylakshmi G. Shivapuja & Wayne S. Quirk. (2016) The protective effects of allopurinol and superoxide dismutase on noise‐induced cochlear damage. Otolaryngology–Head and Neck Surgery 109:6, pages 1052-1056.
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Wayne S. Quirk, G. Avinash, A.L. Nuttall & J.M. Miller. (1992) The influence of loud sound on red blood cell velocity and blood vessel diameter in the cochlea. Hearing Research 63:1-2, pages 102-107.
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Jian Wang, Qianhong Li, Weijia Dong & Jisheng Chen. (1992) Effects of various noise exposures on endocochlear potentials correlated with cochlear gross responses. Hearing Research 59:1, pages 31-38.
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Ilsa Schwartz, Michael D. Seidman, W.S. Quirk, A.L. Nuttall & Vanessa G. Schweitzer. (1991) The Protective Effects of Allopurinol and Superoxide Dismutase‐Polyethylene Glycol on Ischemic and Reperfusion‐Induced Cochlear Damage. Otolaryngology–Head and Neck Surgery 105:3, pages 457-463.
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W.S. Quirk, B.D. Shapiro, J.M. Miller & A.L. Nuttall. (1991) Noise-induced changes in red blood cell velocity in lateral wall vessels of the rat cochlea. Hearing Research 52:1, pages 217-223.
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J.K.M. Coleman, W.S. Quirk, H.A. Dengerink & J.W. Wright. (1990) Pentoxifylline increases cochlear blood flow while decreasing blood pressure in guinea pigs. Hearing Research 47:1-2, pages 169-174.
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Jian Wang, Wei-jia Dong & Ji-sheng Chen. (1990) Changes in endocochlear potential during anoxia after intense noise exposure. Hearing Research 44:2-3, pages 143-149.
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J. Syka. 1989. Progress in Sensory Physiology 9. Progress in Sensory Physiology 9 97 170 .
Alfred L. Nuttall. (1988) Cochlear blood flow: Measurement techniques. American Journal of Otolaryngology 9:6, pages 291-301.
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Katsuhisa Ikeda, Jun Kusakari & Tomonori Takasaka. (1988) Ionic changes in cochlear endolymph of the guinea pig induced by acoustic injury. Hearing Research 32:2-3, pages 103-110.
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Alf Axelsson & Harold Dengerink. (1987) The effects of noise on histological measures of the cochlear vasculature and red blood cells: A review. Hearing Research 31:2, pages 183-191.
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John S. Young, Margaret B. Upchurch, Marc J. Kaufman & Laurence D. Fechter. (1987) Carbon monoxide exposure potentiates high-frequency auditory threshold shifts induced by noise. Hearing Research 26:1, pages 37-43.
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P.R. Thorne & A.L. Nuttall. (1987) Laser doppler measurements of cochlear blood flow during loud sound exposure in the guinea pig. Hearing Research 27:1, pages 1-10.
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Ilmari PyykkÖ, Jukka Starck & Jussi Pekkarinen. (1986) Further evidence of a relation between noise-induced permanent threshold shift and vibration-induced digital vasospasms. American Journal of Otolaryngology 7:6, pages 391-398.
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Robert S. Kimura. (1986) Animal models of inner ear vascular disturbances. American Journal of Otolaryngology 7:2, pages 130-139.
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D. Ian Smith, Merle lawrence & Joseph E. HawkinsJr.Jr.. (1985) Effects of noise and quinine on the vessels of the stria vascularis: An image analysis study. American Journal of Otolaryngology 6:4, pages 280-289.
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Takashi Miyakita & Hajime Miura. (1985) Study on an evaluation index for noise susceptibility. International Archives of Occupational and Environmental Health 55:4, pages 295-303.
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D. Vertes & A. Axelsson. (1981) Cochlear vascular histology in animals exposed to noise. Archives of Oto-Rhino-Laryngology 230:3, pages 285-288.
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