Ultrasound can be perceived by bone conduction, and its characteristics differ from those of air-conducted audible sound (ACAS) in some respects. Despite many studies on ultrasonic hearing, the details have not yet been clarified. In this study, to elucidate the perception mechanism, the masking of bone-conducted ultrasound (BCU) produced by ACAS and the sensitivity of BCU in hearing impaired subjects were evaluated. We found that BCU was masked by high frequency ACAS, especially in the frequency range of 10-14 kHz. The most effective masker frequency depended on masker intensity. For hearing impaired subjects, the pure tone thresholds at 1-8 kHz and the maximum audible frequencies at cut-off intensities of 70-100 dB HL were significantly associated with the BCU threshold (p < 0.01 or p < 0.05). No subjects with estimated total loss of the inner hair cell system in the cochlear basal turn could hear BCU. These results suggest the peripheral perceptual region to be located in the cochlea. The results of masking show the faster excitation spread to the lower frequency range, depending on the intensity. This faster excitation spread may be due to nonlinearity in cochlear mechanics, which may work even without cochlear amplifier, and induce unique characteristics of BCU.
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机译:超声可以通过骨传导感知,并且其特征在某些方面与空气传导可听声音(ACAS)不同。尽管对超声听力进行了许多研究,但细节尚未阐明。在这项研究中,为阐明知觉机制,评估了ACAS产生的骨传导超声(BCU)的掩蔽和BCU在听力障碍受试者中的敏感性。我们发现,BCU被高频ACAS屏蔽,尤其是在10-14 kHz的频率范围内。最有效的掩蔽频率取决于掩蔽强度。对于听力受损的受试者,在1-8 kHz处的纯音阈值和在70-100 dB HL截止强度下的最大可听频率与BCU阈值显着相关(p <0.01或p <0.05)。在耳蜗基底转弯中估计内部毛细胞系统完全丧失的受试者无法听到BCU。这些结果表明周围的知觉区域位于耳蜗。掩蔽的结果表明,取决于强度,激发速度更快扩散到较低的频率范围。这种更快的激励扩展可能是由于耳蜗力学中的非线性所致,甚至在没有耳蜗放大器的情况下也可以工作,并且会诱发BCU的独特特性。
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