利用人工智能预测 COVID-19：系统回顾与元分析

arXiv - PHYS - Medical Physics Pub Date : 2024-08-01 DOI:arxiv-2408.00208

SaeedReza Motamedian, Sadra Mohaghegh, Elham Babadi Oregani, Mahrsa Amjadi, Parnian Shobeiri, Negin Cheraghi, Niusha Solouki, Nikoo Ahmadi, Hossein Mohammad-Rahimi, Yassine Bouchareb, Arman Rahmim

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引用次数: 0

摘要

目的：近年来，人工智能（AI）技术已被广泛应用于多种疾病的诊断和预后。本研究对已发表的有关使用人工智能预测 COVID-19 的研究进行了识别、评估和综合。研究方法：使用Medline、Google Scholar、Scopus、Embase、Cochrane和ProQuest进行电子检索。纳入了使用 CT 或胸部 X 光图像检测机器学习或深度学习方法以确定 COVID-19 预后的研究。计算了投票灵敏度、特异性曲线下面积和诊断几率比：共收录了 36 篇文章；研究了与预后相关的各种问题，包括疾病严重程度、机械通气或入住重症监护室以及死亡率。研究采用了多种人工智能模型和架构，如 Siamense 模型、支持向量机、随机森林、梯度提升和卷积神经网络。这些模型对死亡率、严重程度评估和通气需求的灵敏度分别达到 71%、88% 和 67%。上述变量的特异性分别为 69%、89% 和 89%。结论：根据收录的文章，利用 CT 或 CXR 图像的放射学特征对 COVID-19 患者进行预后判断的机器学习和深度学习方法可以帮助临床医生更有效地管理患者和分配资源。这些研究还表明，将患者人口统计学、临床数据、实验室检查和放射学特征结合起来可以提高模型的性能。

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Prognosis of COVID-19 using Artificial Intelligence: A Systematic Review and Meta-analysis

Purpose: Artificial intelligence (AI) techniques have been extensively utilized for diagnosing and prognosis of several diseases in recent years. This study identifies, appraises and synthesizes published studies on the use of AI for the prognosis of COVID-19. Method: Electronic search was performed using Medline, Google Scholar, Scopus, Embase, Cochrane and ProQuest. Studies that examined machine learning or deep learning methods to determine the prognosis of COVID-19 using CT or chest X-ray images were included. Polled sensitivity, specificity area under the curve and diagnostic odds ratio were calculated. Result: A total of 36 articles were included; various prognosis-related issues, including disease severity, mechanical ventilation or admission to the intensive care unit and mortality, were investigated. Several AI models and architectures were employed, such as the Siamense model, support vector machine, Random Forest , eXtreme Gradient Boosting, and convolutional neural networks. The models achieved 71%, 88% and 67% sensitivity for mortality, severity assessment and need for ventilation, respectively. The specificity of 69%, 89% and 89% were reported for the aforementioned variables. Conclusion: Based on the included articles, machine learning and deep learning methods used for the prognosis of COVID-19 patients using radiomic features from CT or CXR images can help clinicians manage patients and allocate resources more effectively. These studies also demonstrate that combining patient demographic, clinical data, laboratory tests and radiomic features improves model performances.

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arXiv - PHYS - Medical Physics

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