对直立纤毛的永久性噪音损伤:蜥蜴耳蜗的扫描电子显微镜研究。

Scanning electron microscopy Pub Date : 1986-01-01
M J Mulroy
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引用次数: 0

摘要

短吻鳄蜥蜴暴露在106至132 dB声压级的宽带噪声中2小时,并允许其在19至62天内恢复。通过比较恢复期结束时记录的耳蜗电位的听神经成分与噪声暴露前记录的听神经成分来评估听力损失。用扫描电镜观察耳廓的立体纤毛。这些感觉毛的病理变化与哺乳动物耳蜗中噪音引起的损伤相似。按照严重程度的递减顺序,损伤包括完全缺失的听乳头、缺失的毛细胞、缺失的毛发、毛发脱落,以及与正常外观相比,毛发只是适度地分开。长期的听力损失似乎与所有这些感觉性毛发病变有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Permanent noise-induced damage to stereocilia: a scanning electron microscopic study of the lizard's cochlea.

Alligator lizards were exposed to broadband noise ranging in intensity from 106 to 132 dB SPL for two hours and permitted to recover from 19 to 62 days. Hearing loss was assessed by comparing the auditory nerve component of the cochlear potential recorded at the end of the recovery period with that recorded before the noise exposure. The stereocilia in these ears were examined with a scanning electron microscope. These sensory hairs showed pathological changes similar to those described in mammalian cochleas with noise-induced damage. In decreasing order of severity the damage included completely missing auditory papillas, missing hair cells, missing hairs, hairs fallen over, and hairs that were only moderately splayed apart compared with their normal appearance. Long lasting hearing loss seems to be associated with all of these sensory hair pathologies.

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