基于人群的COVID-19感染诊断及其相关因素的深度学习方法

IF 0.1 Q4 STATISTICS & PROBABILITY
Abolfazl Payandeh, Habibollah Esmaily, Masoud Salehi, Seyed Mahdi Amir Jahanshahi, Maryam Salari, Seyed Ali Alamdaran, Ahmad Bolouri
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引用次数: 0

摘要

今天,人工智能(AI)在不同研究领域的应用需求很高。人工智能可以在医疗环境中用于帮助临床决策和有限的资源分配。本研究提出了检测COVID-19的最佳模型,预测新病例中的疾病,并确定了与COVID-19相关的最重要特征,使用DL算法作为AI技术的子集。在这项基于人群的回顾性研究中,10862名疑似COVID-19的个体参与了研究。这些信息是在2020年2月20日至2021年6月21日期间从伊朗东北部呼罗珊-拉扎维省的35家不同医院收集的。我们采用了人工神经网络(ANN)、随机森林(RF)、决策树(DT)、支持向量机(SVM)、提升树(BT)和逻辑回归(LR) DL算法。我们的研究结果表明,射频模型比所有其他算法具有更高的性能。RF算法的灵敏度为66%,特异性为95%,精密度为88%,准确度为85%,AUC为74%。我们的研究发现,检测COVID-19的常见顶级预测因子是:年龄、SpO2、接收季节、CT结果、接触史、性别和发烧。射频模型可以帮助临床决策和有限的资源分配。该模型需要在更大的人群、更多的特征和多中心设置中进行外部验证。收稿日期:2023年8月1日。收稿日期:2023年9月4日
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A DEEP LEARNING APPROACH FOR DIAGNOSIS OF COVID-19 INFECTION AND ITS RELATED FACTORS: A POPULATION-BASED STUDY
Today, there is a high demand for artificial intelligence (AI) applications in distinct areas of research. AI can be used in the medical context to help in clinical decision-making and limited resource allocation. The present study proposes the best model for the detection of COVID-19, the prediction of disease in new cases, and also determines the top significant features related to COVID-19, using DL algorithms as a subset of AI techniques. In this retrospective population-based study, 10862 individuals suspicious of COVID-19 participated. The information was collected from 35 different hospitals across Khorasan-Razavi province, Northeast of Iran, from 20 February 2020 to 21 June 2021. We employed artificial neural networks (ANN), random forests (RF), decision tree (DT), support vector machines (SVM), boosted trees (BT), and logistic regression (LR) DL algorithms. Our findings indicated that the RF model had higher performance than all other algorithms. The RF algorithm had a sensitivity of 66%, specificity of 95%, precision of 88%, accuracy of 85%, and AUC of 74%. Our study found that the common top predictors for detecting COVID-19 were: age, SpO2, reception season, CT result, contact history, sex, and fever. RF model can aid in clinical decision-making and limited resource allocation. This model needs to be externally validated in larger populations, more features, and multicenter settings. Received: August 1, 2023Accepted: September 4, 2023
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来源期刊
JP Journal of Biostatistics
JP Journal of Biostatistics STATISTICS & PROBABILITY-
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