Nishimura Tadashi, Hosoi Hiroshi, Saito Osamu, Miyamae Ryosuke, Shimokura Ryota, Matsui Toshie, Yamanaka Toshiaki, Kitahara Tadashi, Levitt Harry
Department of Otolaryngology-Head and Neck Surgery, Nara Medical University, 840 Shijo-cho, Kashihara, Nara 634-8522, Japan.
Nara Medical University, 840 Shijo-cho, Kashihara, Nara 634-8522, Japan.
Auris Nasus Larynx. 2015 Feb;42(1):15-9. doi: 10.1016/j.anl.2014.08.001. Epub 2014 Sep 8.
By attaching a transducer to the aural cartilage, a relatively loud sound is audible even with a negligibly small fixation force. Previous study has identified several pathways for sound transmission by means of cartilage conduction. This investigation focused on the relative contribution of direct vibration of the aural cartilage to sound transmission in an open and in an occluded ear.
Thresholds with and without an earplug were compared for three experimental conditions: the transducer being placed on the tragus, pretragus, and mastoid. Eight volunteers with normal hearing participated.
The thresholds increased with distance of the transducer from the ear canal (tragus, pretragus, mastoid, in that order). The differences were statistically significant for all conditions except for the occluded ear at 4 kHz. With the earplug inserted, the thresholds for the tragus condition were most sensitive below 2 kHz, indicating a significant contribution of direct vibration of the aural cartilage.
Direct vibration of the aural cartilage can enhance sound transmission. At low frequencies, cartilage conduction can deliver sound efficiently across a blockage in the ear canal. Stray airborne sound radiating from the transducer dominates cartilage conduction in the open ear at high frequencies.
通过将换能器附着于耳软骨上,即使在固定力极小的情况下也能听到相对较大的声音。先前的研究已经确定了几种通过软骨传导进行声音传播的途径。本研究聚焦于耳软骨直接振动在开放耳和闭塞耳中对声音传播的相对贡献。
比较了三种实验条件下佩戴耳塞和不佩戴耳塞时的阈值:换能器分别置于耳屏、耳屏前和乳突。八名听力正常的志愿者参与了实验。
阈值随着换能器与耳道距离的增加而升高(依次为耳屏、耳屏前、乳突)。除了在4kHz时的闭塞耳外,所有条件下的差异均具有统计学意义。插入耳塞后,耳屏条件下的阈值在2kHz以下最为敏感,表明耳软骨直接振动有显著贡献。
耳软骨的直接振动可增强声音传播。在低频时,软骨传导可有效地将声音传递过耳道中的阻塞物。在高频时,换能器辐射出的杂散空气传播声音在开放耳中主导软骨传导。
