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J Clin Hypertens (Greenwich). 2022 Jan;24(1):38-46. doi: 10.1111/jch.14403. Epub 2021 Dec 9.
2
Relationship between occupational noise exposure and hypertension: A cross-sectional study in steel factories.职业噪声暴露与高血压的关系:钢铁厂的横断面研究。
Am J Ind Med. 2019 Nov;62(11):961-968. doi: 10.1002/ajim.23034. Epub 2019 Aug 12.
3
Prevalence and determinants of noise-induced hearing loss among workers in the automotive industry in China: A pilot study.中国汽车行业工人噪声性听力损失的患病率及其决定因素:一项初步研究。
J Occup Health. 2019 Sep;61(5):387-397. doi: 10.1002/1348-9585.12066. Epub 2019 Jun 10.
4
Noise exposure and hearing status among call center operators.呼叫中心话务员的噪声暴露与听力状况
Noise Health. 2018 Sep-Oct;20(96):178-189. doi: 10.4103/nah.NAH_11_18.
5
Artificial neural network algorithm model as powerful tool to predict acute lung injury following to severe acute pancreatitis.人工神经网络算法模型作为预测重症急性胰腺炎后急性肺损伤的有力工具。
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6
Cardiovascular conditions, hearing difficulty, and occupational noise exposure within US industries and occupations.美国各行业和职业中的心血管疾病、听力困难和职业性噪声暴露。
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Preventing Noise-Induced Hearing Loss.预防噪声性听力损失。
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10
Usage of personal music players in adolescents and its association with noise-induced hearing loss: A cross-sectional analysis of Ohrkan cohort study data.青少年个人音乐播放器的使用及其与噪声性听力损失的关联:Ohrkan队列研究数据的横断面分析
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基于反向传播神经网络模型的汽车制造业工人噪声性听力损失风险分析:汉族人群的横断面研究。

Risk analysis of noise-induced hearing loss of workers in the automobile manufacturing industries based on back-propagation neural network model: a cross-sectional study in Han Chinese population.

机构信息

Key Laboratory of Occupational Environment and Health, Guangzhou Twelfth People's Hospital, Guangzhou, China.

Department of Health care, BaiYun Women and Children's Hospital and Health Institute, Guangzhou, China.

出版信息

BMJ Open. 2024 May 17;14(5):e079955. doi: 10.1136/bmjopen-2023-079955.

DOI:10.1136/bmjopen-2023-079955
PMID:38760055
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11103207/
Abstract

OBJECTIVES

This study aims to predict the risk of noise-induced hearing loss (NIHL) through a back-propagation neural network (BPNN) model. It provides an early, simple and accurate prediction method for NIHL.

DESIGN

Population based, a cross sectional study.

SETTING

Han, China.

PARTICIPANTS

This study selected 3266 Han male workers from three automobile manufacturing industries.

PRIMARY OUTCOME MEASURES

Information including personal life habits, occupational health test information and occupational exposure history were collected and predictive factors of NIHL were screened from these workers. BPNN and logistic regression models were constructed using these predictors.

RESULTS

The input variables of BPNN model were 20, 16 and 21 important factors screened by univariate, stepwise and lasso-logistic regression. When the BPNN model was applied to the test set, it was found to have a sensitivity (TPR) of 83.33%, a specificity (TNR) of 85.92%, an accuracy (ACC) of 85.51%, a positive predictive value (PPV) of 52.85%, a negative predictive value of 96.46% and area under the receiver operating curve (AUC) is: 0.926 (95% CI: 0.891 to 0.961), which demonstrated the better overall properties than univariate-logistic regression modelling (AUC: 0.715) (95% CI: 0.652 to 0.777). The BPNN model has better predictive performance against NIHL than the stepwise-logistic and lasso-logistic regression model in terms of TPR, TNR, ACC, PPV and NPV (p<0.05); the area under the receiver operating characteristics curve of NIHL is also higher than that of the stepwise and lasso-logistic regression model (p<0.05). It was a relatively important factor in NIHL to find cumulative noise exposure, auditory system symptoms, age, listening to music or watching video with headphones, exposure to high temperature and noise exposure time in the trained BPNN model.

CONCLUSIONS

The BPNN model was a valuable tool in dealing with the occupational risk prediction problem of NIHL. It can be used to predict the risk of an individual NIHL.

摘要

目的

本研究旨在通过反向传播神经网络(BPNN)模型预测噪声性听力损失(NIHL)的风险。它为 NIHL 提供了一种早期、简单、准确的预测方法。

设计

基于人群的横断面研究。

地点

中国汉族人群。

参与者

本研究从三家汽车制造企业中选择了 3266 名汉族男性工人。

主要观察指标

收集个人生活习惯、职业健康检查信息和职业暴露史等信息,从这些工人中筛选出 NIHL 的预测因素。使用这些预测因素构建 BPNN 和逻辑回归模型。

结果

BPNN 模型的输入变量为单因素、逐步和套索逻辑回归筛选出的 20、16 和 21 个重要因素。当将 BPNN 模型应用于测试集时,发现其敏感性(TPR)为 83.33%,特异性(TNR)为 85.92%,准确性(ACC)为 85.51%,阳性预测值(PPV)为 52.85%,阴性预测值为 96.46%,受试者工作特征曲线下面积(AUC)为 0.926(95%置信区间:0.891 至 0.961),优于单因素逻辑回归模型(AUC:0.715)(95%置信区间:0.652 至 0.777)。与逐步逻辑回归和套索逻辑回归模型相比,BPNN 模型在 TPR、TNR、ACC、PPV 和 NPV 方面对 NIHL 具有更好的预测性能(p<0.05);NIHL 的受试者工作特征曲线下面积也高于逐步和套索逻辑回归模型(p<0.05)。在训练好的 BPNN 模型中,累积噪声暴露、听觉系统症状、年龄、戴耳机听音乐或观看视频、高温暴露和噪声暴露时间是 NIHL 中相对重要的因素。

结论

BPNN 模型是处理 NIHL 职业风险预测问题的一种有价值的工具。它可用于预测个体发生 NIHL 的风险。