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Acta Oto-Laryngologica Volume 123, 2003 - Issue 7
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Inner Ear

Effect of superoxide dismutase and allopurinol on impulse noise-exposed guinea pigs--electrophysiological and biochemical study

E. Cassandro Department of Experimental and Clinical Medicine, University of Reggio, Reggio
,
L. Sequino Department of Neuroscience, Audiology and
,
P. Mondola Department of Neuroscience, Physiology, University "Fedrico II", Naples and
,
G. Attanasio Department of Neurology and Otorhinolaryngology, University "La Sapienza", Rome, Italy
,
M. Barbara Department of Neurology and Otorhinolaryngology, University "La Sapienza", Rome, Italy
&
R. Filipo Department of Neurology and Otorhinolaryngology, University "La Sapienza", Rome, Italy
Pages 802-807 | Published online: 17 Dec 2014

References

  • White CW. Ghezzi P. McMahon S. Dinarello CA. Repine .1E. Cytokines increase rat lung antioxidant enzymes during exposure to hyperoxia. J Appl PhysioI 1989: 66: 1003. 7.
  • Yamasoba T. Nuttal AL, Harris C, Raphael Y. Miller IM. Role of eititathione in protection against noise-induced hearing loss. Brain Res 1998: 16: 82-90_
  • Marklund SL. Regulation by cytokines of extracellular superoxide dismutase and other superoxide dismutase isoenzymes in fibroblasts ..1 Biel Chem 1992: 267: 6696–701.
  • Jensen LC, Pogrebniac FIW, Pass Hi. et al. Role or tumor necrosis factor in oxygen toxicity. J Appl Physiol 1992; 72: 1902 .7.
  • Sha SII. Schacht J. Antioxidants attenuate eentainiein-induced free radical 1brmat ion in vitro and ototoxicity in vivo: d-rnethionine is a potential proteetant. Hear Res 2000: 142: 34 • 40.
  • Sha Ski. Schacht J. Stimulation of free radical formation by arninoglyeoside antibiotics. Hear Res 1999: 128: 112–8.
  • Halliwell B. Gutteridge .1M. The importance of free radicals and catalytic metal ions in human diseases. Mol Aspects Med 1985:8: 119 27.
  • Seidman MD, BhagyIakshmi OS, Shivapuja BG, Quirk WS. The protective effects of allopurinol and superoxide dismutase on noise-induced cochlear damage. Otolar-yngol Head Neck Surg 1993: 109: 1052 6.
  • Seidman MD, Quirk WS, Nuttall AL. Schweitzer VG. The protective effects of allopurinol and superoxide dismutase polyethylene glycol on ischernic and reperfu-sion-induced cochlear damage. Otolaryngol Head Neck Surg 1991: 105: 457–63.
  • Lopez-Gonzales MA. Lucas M, Delgado F. Diaz P The production of free oxygen radicals and nitric oxide in the rat cochlea. Neurochem Int 1998; 33: 559.
  • °Innate Y. Miller JM. AItseituler RA. Schacht J. Intense noise induces formation of vasoactive lipid peroxidation products in the cochlea. Brain Res 2000; 878: 163–73.
  • Ohlerniller KK. Wright IS. Dugan LL. Early elevation of cochlear reactive oxygen species following noise exposure. Audiol Neurootol 1999: 4: 229-36_
  • Axelsson A. Vertes D. Miller J. Immediate noise effects on cochlear vaseulature in the guinea pig. Acta Otolar-yngol (Stockli) 1981: 91: 237–46.
  • Bannister IV. Bannister WE-I. Rotilio G. Aspects of the structure, function, and applications or superoxide dismutase. Crit Rev Biochern 1987: 22: 111–80.
  • BegsIand J. LoBalsaino L, Lajos P. Mookerjee B. Post-anoxic licmodynamic performance. The effect or alto-purinol and superoxide dismutase/catalase. Transplant Proc 1987; 19: 4165–6.
  • Esterbauer E. Cheesernan KR Determination of aide-hydic lipid peroxidation products: malonaldehyde and 4-hydroxynonenal. Methods Enzymol 1990: 186: 407–21.
  • Okamoto A. Hasegawa M. Tamura T, Hoinma T. Komatsuzaki A_ Effects of frequency and intensity of sound on cochlear blood flow. Ada Otolaryngol (Stockh) 1992: 112: 59.
  • Okamoto A, Tamura T. Yokohama K. Kobayashi N. Hasegawa M. Effect of loud sound exposure on the cochlear blood flow. Acta Otolaryngol (Stockh) 1990: 109: 378–82.
  • Vertes D. AxeIsson A, Miller I. Liden G. Cochlear vasculature and eiectrophysiologicaI effects in the guinea pie exposed to 4 KHz pure tones of different duration and intensities. Acta Otolaryngol (Stockh) 1981:92: 15 24_
  • Hawkins JE. The role of vasoconstriction in noise-induced hearing loss. Ann Owl Rhino] LaryngoI 1971; 80: 903–13.
  • Prazma J. Rodgers GK, Pillsbury HC. Cochlear blood flow: effect of noise. Arch Otolaryngol 1983; 109: 611–5.
  • Attanasio G. Buongiorno G. Piccoli F, et al. Laser doppler measurement of cochlear blood flow changes during conditioning noise exposure. Acta Otolaryngol 2001; 121: 465–9.
  • Yarnane H, Nakai Y. Takayarna M. et al. The emergence of free radicals after acoustic trauma and striaI blood flow. Acta Otolaryngol Suppl (Stockh) 1995: 519: 87–97.
  • Henderson a subraniarn M, Gratton MA. Saunders SS. Impact-noise: the importance of level, duration and repetition rate. J Acoust Soc Am 1990; 89: 1350.. 7.
  • Liu Z. Experimental study on the mechanism of free radical in blast traunut induced hearing loss. Zhonglma Er Bi Yan Hou Ke Za Zhi 1992: 27: 24.–6.

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