Breaking the threshold: Developing multivariable models using computer-aided chest X-ray analysis for tuberculosis triage

IF 4.8 2区医学 Q1 INFECTIOUS DISEASES

International Journal of Infectious Diseases Pub Date : 2024-09-02 DOI:10.1016/j.ijid.2024.107221

Coralie Geric , Gamuchirai Tavaziva , Marianne Breuninger , Keertan Dheda , Ali Esmail , Alex Scott , Mary Kagujje , Monde Muyoyeta , Klaus Reither , Aamir J. Khan , Andrea Benedetti , Faiz Ahmad Khan

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引用次数: 0

Abstract

Objectives

Computer-aided detection (CAD) software packages quantify tuberculosis (TB)-compatible chest X-ray (CXR) abnormality as continuous scores. In practice, a threshold value is selected for binary CXR classification. We assessed the diagnostic accuracy of an alternative approach to applying CAD for TB triage: incorporating CAD scores in multivariable modeling.

Methods

We pooled individual patient data from four studies. Separately, for two commercial CAD, we used logistic regression to model microbiologically confirmed TB. Models included CAD score, study site, age, sex, human immunodeficiency virus status, and prior TB. We compared specificity at target sensitivities ≥90% between the multivariable model and the current threshold-based approach for CAD use.

Results

We included 4,733/5,640 (84%) participants with complete covariate data (median age 36 years; 45% female; 22% with prior TB; 22% people living with human immunodeficiency virus). A total of 805 (17%) had TB. Multivariable models demonstrated excellent performance (areas under the receiver operating characteristic curve [95% confidence interval]: software A, 0.91 [0.90-0.93]; software B, 0.92 [0.91-0.93]). Compared with threshold scores, multivariable models increased specificity (e.g., at 90% sensitivity, threshold vs model specificity [95% confidence interval]: software A, 71% [68-74%] vs 75% [74-77%]; software B, 69% [63-75%] vs 75% [74-77%]).

Conclusion

Using CAD scores in multivariable models outperformed the current practice of CAD-threshold-based CXR classification for TB diagnosis.

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打破门槛：利用计算机辅助胸部 X 光分析建立多变量模型，用于结核病分诊。

背景：计算机辅助检测（CAD）软件包将与肺结核相关的胸部 X 光（CXR）异常量化为连续分数。在实践中，二元 CXR 分类会选择一个阈值。我们评估了应用 CAD 进行肺结核分诊的另一种方法的诊断准确性：将 CAD 评分纳入多变量建模：我们汇总了四项研究中的患者个体数据。对于两项商业 CAD，我们分别使用逻辑回归法对微生物确诊的结核病进行建模。模型包括 CAD 评分、研究地点、年龄、性别、HIV 感染状况和既往结核病史。我们比较了多变量模型和目前基于阈值的 CAD 使用方法在目标灵敏度≥90% 时的特异性：我们纳入了 4733/5640 名（84%）具有完整协变量数据的参与者（中位年龄 36 岁；45% 为女性；22% 曾患肺结核；22% 为 HIV 感染者）。共有 805 人（17%）患有结核病。多变量模型表现优异（接收者工作特征曲线下的面积 (95%CI)：软件 A，0.91 (0.90-0.93)；软件 B，0.92 (0.91-0.93)）。与阈值评分相比，多变量模型提高了特异性（例如，在灵敏度为 90% 的情况下，阈值与模型的特异性（95%CI）：软件 A，71%（68%-74%） vs. 75%（74%-77%）；软件 B，69%（63%-75%） vs. 75%（74%-77%））：结论：在多变量模型中使用 CAD 评分的效果优于目前基于 CAD 阈值的 CXR 诊断方法。

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

International Journal of Infectious Diseases 医学-传染病学

CiteScore

18.90

自引率

2.40%

发文量

1020

审稿时长

30 days

期刊介绍： International Journal of Infectious Diseases (IJID) Publisher: International Society for Infectious Diseases Publication Frequency: Monthly Type: Peer-reviewed, Open Access Scope: Publishes original clinical and laboratory-based research. Reports clinical trials, reviews, and some case reports. Focuses on epidemiology, clinical diagnosis, treatment, and control of infectious diseases. Emphasizes diseases common in under-resourced countries.