Vocalization-induced middle ear muscle reflex and auditory fovea do not contribute to the unimpaired auditory sensitivity after intense noise exposure in the CF-FM bat, Hipposideros pratti.

IF 1.9 4区 心理学 Q3 BEHAVIORAL SCIENCES
Zhongdan Cui, Jianwen Zou, Yuting Zhou, Yuntu Cao, Haonan Song, Haoyue Xu, Jing Wu, Baoling Jin, Lijian Yang, Ya Jia, Qicai Chen, Ziying Fu
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Abstract

Behaviors and auditory physiological responses of some species of echolocating bats remain unaffected after exposure to intense noise, but information on the underlying mechanisms remains limited. Here, we studied whether the vocalization-induced middle ear muscle (MEM) contractions (MEM reflex) and auditory fovea contributed to the unimpaired auditory sensitivity of constant frequency-frequency modulation (CF-FM) bats after exposure to broad-band intense noise. The vocalizations of the CF-FM bat, Hipposideros pratti, were inhibited through anesthesia to eliminate the vocalization-induced MEM reflex. First, the anesthetized bats were exposed to intense broad-band noise, and the findings showed that the bats could still maintain their auditory sensitivities. However, auditory sensitivities were seriously impaired in CBA/Ca mice exposed to intense noise under anesthesia. This indicated that the unimpaired auditory sensitivity in H. pratti after exposure to intense noise under anesthesia was not due to anesthetization. The bats were further exposed to low-frequency band-limited noise, whose passband did not overlap with echolocation call frequencies. The results showed that the auditory responses to sound frequencies within the noise spectrum and one-half octave higher than the spectrum were also unimpaired. Taken together, the results indicate that both vocalization-induced MEM reflex and auditory fovea do not contribute to the unimpaired auditory sensitivity in H. pratti after exposure to intense noise. The possible mechanisms underlying the unimpaired auditory sensitivity after echolocating bats were exposed to intense noise are discussed.

Abstract Image

CF-FM蝙蝠(Hipposideros pratti)在暴露于强烈噪声后,发声引起的中耳肌肉反射和听觉眼窝不会导致听觉灵敏度受损。
某些种类的回声定位蝙蝠的行为和听觉生理反应在暴露于强烈噪声后仍然不受影响,但有关其潜在机制的信息仍然有限。在这里,我们研究了发声引起的中耳肌肉(MEM)收缩(MEM反射)和听觉眼窝是否有助于恒频调制(CF-FM)蝙蝠在暴露于宽带强噪声后听觉灵敏度不受影响。通过麻醉抑制恒频调制蝙蝠 Hipposideros pratti 的发声,以消除发声引起的 MEM 反射。首先,将麻醉后的蝙蝠暴露于强烈的宽带噪声中,结果表明蝙蝠仍能保持听觉敏感性。然而,在麻醉状态下暴露于强噪声的CBA/Ca小鼠的听觉敏感性却严重受损。这表明,H. pratti 在麻醉状态下暴露于强烈噪声后听觉灵敏度未受损并非由于麻醉所致。蝙蝠进一步暴露于低频带限制噪声中,该噪声的通带与回声定位呼叫频率不重叠。结果表明,蝙蝠对噪声频谱内和比频谱高半个八度的声音频率的听觉反应也没有受到影响。综上所述,这些结果表明,发声诱导的 MEM 反射和听觉眼窝都不会导致 H. pratti 在暴露于强噪声后听觉灵敏度不受影响。本文探讨了回声定位蝙蝠暴露于强噪声后听觉灵敏度不受损的可能机制。
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来源期刊
CiteScore
4.80
自引率
14.30%
发文量
67
审稿时长
1 months
期刊介绍: The Journal of Comparative Physiology A welcomes original articles, short reviews, and short communications in the following fields: - Neurobiology and neuroethology - Sensory physiology and ecology - Physiological and hormonal basis of behavior - Communication, orientation, and locomotion - Functional imaging and neuroanatomy Contributions should add to our understanding of mechanisms and not be purely descriptive. The level of organization addressed may be organismic, cellular, or molecular. Colour figures are free in print and online.
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