The dose-response relationship between noise-induced hearing loss and cumulative noise exposure adjusted by the effect of hearing protection devices among workers in Southern China.

IF 1.5 4区医学 Q4 ENVIRONMENTAL SCIENCES

Journal of Occupational and Environmental Hygiene Pub Date : 2025-04-01 Epub Date: 2025-01-28 DOI:10.1080/15459624.2024.2444438

Guoyong Xu, Jia Tang, Jianyu Guo, Zhixing Fan, Linyan Shu, Hairu Yang, Bin Xiao

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引用次数: 0

Abstract

The noise exposure levels of workers wearing hearing protective devices (HPDs) depend on ambient noise and the protective effect of hearing protectors. This cross-sectional study aimed to adjust for cumulative noise exposure (CNE) based on the effective protection of hearing protection devices and explore the dose-response relationship between noise-induced hearing loss (NIHL) and adjusted cumulative noise exposure. A questionnaire was used to acquire the basic characteristics and occupational information of noise-exposed workers. Individual noise dosimetry, individual fitting tests, and pure-tone audiometric tests were performed to assess workers' noise exposure levels, HPDs' sound attenuation, and hearing status. A total of 714 workers participated in this study. Four hundred seventy-three participants wore foam earplugs and 241 wore pre-molded earplugs. The median Personal Attenuation Rating (PAR) was 13.0 dB. The median PAR' (the PAR after combining the earplugs usage time) was 8.0 dB. Thirty-one percent of the workers wore earplugs properly during noise exposure and they tended to possess a greater PAR. The median L_Aeq,8h was 94.1 dB (A) and the median unadjusted cumulative noise exposure was 102.3 dB (A)· year. The PAR'-adjusted CNE (CNE_P) was 91.3 dB (A)·year. A total of 161 workers (22.5%) with hearing loss were identified. There was an obvious trend between the prevalence of NIHL and CNE_P (χ_trend² = 31.9, p < 0.01). The Wald values of the CNE and CNE_P logistic regression models were 4.0 and 14.1, respectively. Furthermore, the curve slope of the CNE_P was steeper than that of the unadjusted CNE. The CNE_P can represent the noise exposure level among workers wearing hearing protectors more accurately and has an apparent dose-response relationship with the prevalence of NIHL. For workers utilizing hearing protection devices, wearing them properly and consistently in the workplace is recommended. Assessing noise exposure based on the protective effects of hearing protectors is also essential. Additional studies are needed to quantify the impact of behaviors associated with the improper use of hearing protection.

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华南地区工人噪声性听力损失与累积噪声暴露的剂量-反应关系

佩戴听力保护器的工人的噪声暴露水平取决于环境噪声和听力保护器的保护效果。本横断面研究旨在基于听力保护装置的有效保护调整累积噪声暴露（CNE），探讨噪声性听力损失（NIHL）与调整累积噪声暴露之间的剂量-反应关系。采用问卷调查法了解噪声暴露工人的基本特征和职业信息。进行个体噪声剂量测定、个体拟合测试和纯音听力测试，以评估工人的噪声暴露水平、高压工人的声音衰减和听力状况。共有714名员工参与了这项研究。473名参与者戴泡沫耳塞，241名参与者戴预制耳塞。个人衰减等级（PAR）中位数为13.0 dB。中位PAR'（综合耳塞使用时间后的PAR）为8.0 dB。在噪声暴露过程中，有31%的工人正确佩戴耳塞，他们具有更高的PAR。LAeq，8h的中位数为94.1 dB (a)，未经调整的累积噪声暴露的中位数为102.3 dB (a)·年。PAR调整后的CNE （CNEP）为91.3 dB (A)·年。共有161名工人（22.5%）患有听力损失。NIHL患病率与CNEP患病率之间存在明显的趋势（χ趋势2 = 31.9，p logistic回归模型分别为4.0和14.1）。此外，CNEP的曲线斜率比未调整的CNE更陡。CNEP可以更准确地反映佩戴听力保护器工人的噪声暴露水平，并与NIHL患病率存在明显的剂量-反应关系。对于使用听力保护装置的工人，建议在工作场所正确和持续地佩戴它们。根据听力保护器的保护作用来评估噪声暴露也是必要的。需要进一步的研究来量化与听力保护使用不当相关的行为的影响。

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

Journal of Occupational and Environmental Hygiene 环境科学-公共卫生、环境卫生与职业卫生

CiteScore

3.30

自引率

10.00%

发文量

审稿时长

12-24 weeks

期刊介绍： The Journal of Occupational and Environmental Hygiene ( JOEH ) is a joint publication of the American Industrial Hygiene Association (AIHA®) and ACGIH®. The JOEH is a peer-reviewed journal devoted to enhancing the knowledge and practice of occupational and environmental hygiene and safety by widely disseminating research articles and applied studies of the highest quality. The JOEH provides a written medium for the communication of ideas, methods, processes, and research in core and emerging areas of occupational and environmental hygiene. Core domains include, but are not limited to: exposure assessment, control strategies, ergonomics, and risk analysis. Emerging domains include, but are not limited to: sensor technology, emergency preparedness and response, changing workforce, and management and analysis of "big" data.