Abstract
The purpose of the current study was to evaluate hydrogen-saturated saline protecting intensive narrow band noise-induced hearing loss. Guinea pigs were divided into three groups: hydrogen-saturated saline; normal saline; and control. For saline administration, the guinea pigs were given daily abdominal injections (1 ml/100 g) 3 days before and 1 h before narrow band noise exposure (2.5–3.5 kHz 130 dB SPL, 1 h). The guinea pigs in the control group received no treatment. The hearing function was assessed by the auditory brainstem response (ABR) and distortion product otoacoustic emission (DPOAE) recording. The changes of free radicals in the cochlea before noise exposure, and immediately and 7 days after noise exposure were also examined. By Scanning electron microscopy and succinate dehydrogenase staining, we found that pre-treatment with hydrogen-saturated saline significantly reduced noise-induced hair cell damage and hearing loss. We also found that the malondialdehyde, lipid peroxidation, and hydroxyl levels were significantly lower in the hydrogen-saturated saline group after noise trauma, indicating that hydrogen-saturated saline can decrease the amount of harmful free radicals caused by noise trauma. Our findings suggest that hydrogen-saturated saline is effective in preventing intensive narrow band noise-induced hearing loss through the antioxidant effect.
Highlights
With the development of modern industry, environmental noise can cause permanent hearing loss in human
auditory brainstem response (ABR) Before noise exposure, ABR tests confirmed that guinea pigs had normal hearing function
The results showed that guinea pigs in the hydrogen-saturated saline group had less of an ABR threshold shift compared to the guinea pigs in the normal saline group (Fig. 1)
Summary
With the development of modern industry, environmental noise can cause permanent hearing loss in human. Noise-induced hearing loss (NIHL) is a sensorineural hearing deficit that is mainly caused by a strong noise stimulus. Previous studies demonstrated that hydrogen can selectively reduce hydroxyl, peroxynitrite, and especially hydroxyl radicals, the most toxic reactive oxygen species, to inhibit oxidative stress, acting as an antioxidant reagent [5]. An intensive 2.5–3.5 kHz sound is one type of narrow band noise that is usually used as a warning sound and may induce a strong uncomfortable feeling which can cause severe hair cell injury and hearing loss. The effect of hydrogen-saturated saline on narrow band noise-induced hearing loss was investigated. Our results showed that hydrogen-saturated saline can act as an antioxidant reagent to protect against intensive narrow band noise-induced hearing loss
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