The damaging effects of two exposures to 100 dB white noise on myelination of the auditory nerve in mouse cochleae mechanism of repeated noise exposure on myelin sheath of cochlear auditory nerve in mice.
10.13201/j.issn.2096-7993.2025.05.010
- Author:
Si ZHANG
1
;
Ke LIU
1
;
Shusheng GONG
1
Author Information
1. Department of Otolaryngology Head and Neck Surgery,Beijing Friendship Hospital,Capital Medical University,Beijing,100050,China.
- Publication Type:Journal Article
- Keywords:
auditory nerve myelin sheath;
hidden hearing loss;
noise exposure;
noise-induced hearing loss;
white noise
- MeSH:
Animals;
Male;
Myelin Sheath/pathology*;
Mice;
Cochlear Nerve/pathology*;
Mice, Inbred C57BL;
Noise/adverse effects*;
Hearing Loss, Noise-Induced/physiopathology*;
Cochlea;
Evoked Potentials, Auditory, Brain Stem
- From:
Journal of Clinical Otorhinolaryngology Head and Neck Surgery
2025;39(5):448-452
- CountryChina
- Language:Chinese
-
Abstract:
Objective:This study aims to investigate the mechanism and potential effects of two exposures to 100 dB sound pressure level(SPL) broadband white noise, with a 14-days interval, on the myelin sheath of the cochlear auditory nerve in mice. The research provides experimental evidence for understanding the pathophysiological processes of noise-induced hearing loss and hidden hearing loss. Methods:Fifteen 6-week-old male C57BL/6J mice with normal hearing thresholds were randomly divided into three groups: a control group(no noise exposure), a single noise exposure group, and a double noise exposure group. The single noise exposure group was exposed to 100 dB SPL white noise for 2 hours, and ABR thresholds were measured 1 day(P1) and 14 days(P14) after the exposure. The double noise exposure group was exposed to the same conditions of 100 dB SPL white noise for 2 hours, followed by a second identical exposure 14 days later. ABR thresholds were measured 1 day(P15) and 14 days(P28) after the second exposure. The cochleae of all three groups were then collected for immunofluorescence observation of the basilar membrane and transmission electron microscopy to observe changes in the structure of the auditory nerve myelin sheath. Results:In the single noise exposure group, ABR thresholds at all frequencies were significantly elevated compared to the control group at P1. There were no significant changes in ABR thresholds at any frequency at P14. In the double noise exposure group, ABR thresholds at all frequencies were significantly elevated compared to the control group at P15 and P28(P<0.001). After the first noise exposure, immunofluorescence observation revealed no significant weakening of the auditory nerve myelin sheath signal; transmission electron microscopy showed no significant changes in myelin sheath morphology. However, after the second noise exposure, immunofluorescence observation revealed a weakening of the myelin sheath signal, and transmission electron microscopy showed thinning of the myelin sheath, disruption of the lamellar structure, and separation from the axon, indicating demyelination. Conclusion:Two exposures to 100 dB SPL broadband white noise can lead to damage to the auditory nerve myelin sheath in mice, whereas a single exposure does not cause significant changes.
