This report explores the consequences of acoustic overexposures on hearing in noisy environments for two macaque monkeys trained to perform a reaction time detection task using a Go/No-Go lever release paradigm. Behavioral and non-invasive physiological assessments were obtained before and after narrowband noise exposure. Physiological measurements showed elevated auditory brainstem response (ABR) thresholds and absent distortion product otoacoustic emissions (DPOAEs) post-exposure relative to pre-exposure. Audiograms revealed frequency specific increases in tone detection thresholds, with the greatest increases at the exposure band frequency and higher. Masked detection was affected in a similar frequency specific manner: threshold shift rates (change of masked threshold per dB increase in noise level) were lower than pre-exposure values at frequencies higher than the exposure band. Detection thresholds in sinusoidally amplitude modulated (SAM) noise post-exposure showed no difference from those in unmodulated noise, whereas pre-exposure masked detection thresholds were lower in the presence of SAM noise compared to unmodulated noise. These frequency dependent results were correlated with cochlear histopathological changes in monkeys that underwent similar noise exposure. These results reveal that behavioral and physiological effects of noise exposure in macaques are similar to those seen in humans and provide preliminary information on the relationship between noise exposure, cochlear pathology and perceptual changes in hearing within individual subjects.
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机译:本报告探讨了在嘈杂环境中听觉过度暴露对两只猕猴的影响,这些猴子经过训练可以使用“ Go / No-Go”杠杆释放范例执行反应时间检测任务。在窄带噪声暴露之前和之后,获得了行为和非侵入性生理评估。生理测量显示相对于暴露前,听觉脑干反应(ABR)阈值升高,并且暴露后缺乏畸变产物耳声发射(DPOAE)。听力图揭示了音调检测阈值中特定于频率的增加,在暴露频带频率上的增加最大,并且更高。掩蔽检测以类似的特定于频率的方式受到影响:在高于暴露频带的频率处,阈值偏移率(掩蔽阈值每dB噪声水平的增加变化)低于预曝光值。曝光后正弦振幅调制(SAM)噪声的检测阈值与未调制噪声的检测阈值无差异,而存在SAM噪声时的暴露前掩蔽检测阈值则比未调制噪声低。这些频率依赖性的结果与经历类似噪声暴露的猴子的耳蜗组织病理学变化相关。这些结果表明,猕猴暴露于噪声的行为和生理效应与人类所见相似,并提供了有关个体暴露于噪声,耳蜗病理与听觉感知变化之间关系的初步信息。
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