L Podoshin, J Ben-David, W Sułkowski, M Fradis, H Pratt, L Djerassi
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引用次数: 0
摘要
研究了脑干听觉诱发电位(BAEP)作为有害噪声易感性指标的有效性。在早期的研究中,受试者暴露于非常强的职业性噪声中,115 dB的高强度噪声会产生暂时阈值移位(TTS)。研究了实验TTS与BAEP变化的相关性。BAEP指数与最终听力损失呈显著相关。类似的标准在早期的工作中发现很重要,在94名听力正常的工业工人中进行了调查,没有过去接触过噪音,使用更温和的110 dB SPL的tts产生噪音。在此条件下,TTS过程中噪声敏感性指数与BAEP变化无显著相关。本研究结果表明,使用BAEP测定个体对噪声性听力损失的易感性存在局限性。产生tts的噪音水平必须足够高。它们的预测价值只适用于高强度职业暴露的典型听力损失。
On the limitation of brainstem auditory evoked potentials for indication of susceptibility to noise.
The efficiency of Brainstem Auditory Evoked Potentials (BAEP) as an indicator of susceptibility to hazardous noise was investigated. In earlier studies, subjects were exposed to very intense occupational noise and temporary threshold shift (TTS) was produced by high intensity noise of 115 dB. Correlations between experimental TTS and the BAEP changes were investigated. BAEP indices, which significant correlations with the eventual hearing loss, were found. Similar criteria, which were found significant in the earlier work, were investigated in 94 industrial workers with normal hearing, without past exposure to noise, using a more moderate TTS-producing noise of 110 dB SPL. Under these conditions, no significant correlation between the noise susceptibility index and BAEP changes during TTS was found. The results of this study demonstrate the limitation of determining individual susceptibility to noise-induced hearing loss using BAEP. TTS-producing noise levels must be high enough. Their predictive value holds only for hearing losses typical of high intensity occupational exposures.
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