Peripheral vestibular loss in noise-exposed firefighters.

IF 2.6 3区医学 Q2 BEHAVIORAL SCIENCES

Frontiers in Integrative Neuroscience Pub Date : 2023-10-02 eCollection Date: 2023-01-01 DOI:10.3389/fnint.2023.1236661

Hillary Anne Snapp, Lindsey Vanlooy, Brianna Kuzbyt, Courtney Kolberg, Denise Laffitte-Lopez, Suhrud Rajguru

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Abstract

Introduction: Occupational workers are increasingly aware of the risk of noise overexposure to the auditory system but lack awareness about potential risks to the vestibular system. The purpose of this study was to investigate changes in vestibular end organ function in a known at-risk noise-exposed population, firefighters compared to age- and sex-matched controls using electrophysiologic measures of cervical vestibular evoked myogenic potentials (cVEMP).

Methods: A cross-sectional observational study compared cVEMP response characteristics in 38 noise-exposed firefighters. Firefighters were grouped by years of exposure in the fire service. The cVEMP responses were compared within firefighter groups and between firefighters and age- and sex-matched controls. Dependent variables included the response characteristics of amplitude, latency and threshold.

Results: cVEMP response amplitudes were significantly decreased in firefighters compared to their age- and sex-matched controls. Threshold of the cVEMP responses were significantly higher in firefighters compared to controls and firefighters had a higher incidence of absent cVEMP responses compared to controls. Response amplitudes decreased with increasing years in the fire-service at an increased rate compared to their age- and sex-matched controls. Latency of the cVEMP response was not significantly different in firefighters compared to controls. These findings are consistent with both animal and human studies suggesting noise-induced changes in the sacculocollic pathway.

Discussion: In the absence of any reported vestibular symptoms or auditory indicators of noise-induced hearing loss, these early effects on the vestibular system point to a potential hidden vestibular loss.

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暴露在噪声中的消防员外周前庭损失。

引言：职业工人越来越意识到噪音过度暴露于听觉系统的风险，但对前庭系统的潜在风险缺乏认识。本研究的目的是使用颈前庭诱发肌源电位（cVEMP）的电生理测量，研究已知暴露于噪声的高危人群、消防员与年龄和性别匹配的对照组前庭末端器官功能的变化。方法：一项横断面观察性研究比较了38名噪声暴露消防员的cVEMP反应特征。消防员按在消防部门工作的年限进行分组。cVEMP反应在消防员组内以及消防员与年龄和性别匹配的对照组之间进行了比较。因变量包括振幅、潜伏期和阈值的响应特征。结果：与年龄和性别匹配的对照组相比，消防员的cVEMP反应幅度显著降低。与对照组相比，消防员的cVEMP反应阈值显著更高，并且与对照组比较，消防员缺席cVEMP的发生率更高。与年龄和性别匹配的对照组相比，响应幅度随着在消防部门工作年限的增加而降低，速度也在增加。与对照组相比，消防员的cVEMP反应潜伏期没有显著差异。这些发现与动物和人类研究一致，这些研究表明噪音诱导的囊状听通路发生了变化。讨论：在没有任何报告的前庭症状或噪声引起的听力损失的听觉指标的情况下，这些对前庭系统的早期影响表明潜在的隐性前庭损失。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Integrative Neuroscience Neuroscience-Cellular and Molecular Neuroscience

CiteScore

4.60

自引率

2.90%

发文量

148

审稿时长

14 weeks

期刊介绍： Frontiers in Integrative Neuroscience publishes rigorously peer-reviewed research that synthesizes multiple facets of brain structure and function, to better understand how multiple diverse functions are integrated to produce complex behaviors. Led by an outstanding Editorial Board of international experts, this multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide. Our goal is to publish research related to furthering the understanding of the integrative mechanisms underlying brain functioning across one or more interacting levels of neural organization. In most real life experiences, sensory inputs from several modalities converge and interact in a manner that influences perception and actions generating purposeful and social behaviors. The journal is therefore focused on the primary questions of how multiple sensory, cognitive and emotional processes merge to produce coordinated complex behavior. It is questions such as this that cannot be answered at a single level – an ion channel, a neuron or a synapse – that we wish to focus on. In Frontiers in Integrative Neuroscience we welcome in vitro or in vivo investigations across the molecular, cellular, and systems and behavioral level. Research in any species and at any stage of development and aging that are focused at understanding integration mechanisms underlying emergent properties of the brain and behavior are welcome.