Lung CT-based multi-lesion radiomic model to differentiate between nontuberculous mycobacteria and Mycobacterium tuberculosis

IF 3.2 2区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Medical physics Pub Date : 2024-11-28 DOI:10.1002/mp.17537

Yanlin Hu, Lingshan Zhong, Hongying Liu, Wenlong Ding, Li Wang, Zhiheng Xing, Liang Wan

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引用次数: 0

Abstract

Background

Nontuberculous mycobacterial lung disease (NTM-LD) and Mycobacterium tuberculosis lung disease (MTB-LD) are difficult to distinguish based on conventional imaging examinations. In recent years, radiomics has been used to discriminate them. However, existing radiomic methods mainly focus on specific lesion types, and have limitations in handling the presence of multiple lesion types that vary among different patients.

Purpose

We aimed to establish a radiomic model based on multiple lesion types in the patient's CT scans, and analyzed the importance of different lesion types in distinguishing the two diseases.

Methods

120 NTM-LD and 120 MTB-LD patients were retrospectively enrolled in this study and randomly split into the training (168) and testing (72) sets. A total of 1037 radiomic features were extracted separately for each lesion type. The univariate analysis, least absolute shrinkage, and selection operator were used to select the significant radiomic features. The radiomic signature score (Radscore) from each lesion type was estimated and aggregated to construct the multi-lesion feature vector for each patient. A multi-lesion radiomic (MLR) model was then established using the random forest classifier, which can estimate importance coefficients for different lesion types. The performances of the MLR model and single radomic models were investigated by the receiver operating characteristic curve (ROC). The impact of the predicted lesion importance was also evaluated in subjective imaging diagnosis.

Results

The MLR model achieved an area under the curve (AUC) of 90.2% (95% CI: 86.2% 94.1%) in differentiating NTM-LD and MTB-LD, outperforming the models using specific lesion types following existing radiomic models by 1% to 13%. Among different lesion types, tree-in-bud pattern demonstrated the highest distinguishing value, followed by consolidation, nodules, and lymph node enlargement. Given the estimated lesion importance, two senior radiologists exhibited improved accuracy in diagnosis, with an increased accuracy of 8.33% and 8.34%, respectively.

Conclusions

This is the first radiomic study to use multiple lesion types to distinguish NTM-LD and MTB-LD. The developed MLR model performed well in differentiating the two diseases, and the lesion types with high importance exhibited the potential to assist experienced radiologists in clinical decision-making.

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基于ct的肺多病变放射学模型鉴别非结核分枝杆菌和结核分枝杆菌。

背景：非结核性分枝杆菌肺病（NTM-LD）和结核性分枝杆菌肺病（MTB-LD）很难通过常规影像学检查进行区分。近年来，放射组学已被用于区分它们。然而，现有的放射学方法主要关注特定的病变类型，在处理不同患者之间存在的多种病变类型时存在局限性。目的：建立基于患者CT多病变类型的放射组学模型，分析不同病变类型对区分两种疾病的重要性。方法：回顾性纳入120例NTM-LD和120例MTB-LD患者，随机分为训练组（168组）和测试组（72组）。每种病变类型分别提取了1037个放射学特征。采用单变量分析、最小绝对收缩和选择算子来选择显著的放射学特征。对每种病变类型的放射学特征评分（Radscore）进行估计和汇总，构建每个患者的多病变特征向量。然后利用随机森林分类器建立多病变放射组（MLR）模型，该模型可以估计不同病变类型的重要系数。采用受试者工作特征曲线（ROC）对MLR模型和单天线模型的性能进行了研究。预测病变重要性在主观影像学诊断中的影响也被评估。结果：MLR模型鉴别NTM-LD和MTB-LD的曲线下面积（AUC）为90.2% (95% CI: 86.2% 94.1%)，优于现有放射学模型后使用特定病变类型的模型1% ~ 13%。在不同的病变类型中，芽状树型具有最高的区分价值，其次是实变、结节和淋巴结肿大。考虑到估计的病变重要性，两名高级放射科医生的诊断准确性有所提高，分别提高了8.33%和8.34%。结论：这是首次使用多种病变类型来区分NTM-LD和MTB-LD的放射组学研究。所建立的MLR模型在两种疾病的区分上表现良好，并且具有高重要性的病变类型显示出协助经验丰富的放射科医生进行临床决策的潜力。

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

Medical physics 医学-核医学

CiteScore

6.80

自引率

15.80%

发文量

660

审稿时长

1.7 months

期刊介绍： Medical Physics publishes original, high impact physics, imaging science, and engineering research that advances patient diagnosis and therapy through contributions in 1) Basic science developments with high potential for clinical translation 2) Clinical applications of cutting edge engineering and physics innovations 3) Broadly applicable and innovative clinical physics developments Medical Physics is a journal of global scope and reach. By publishing in Medical Physics your research will reach an international, multidisciplinary audience including practicing medical physicists as well as physics- and engineering based translational scientists. We work closely with authors of promising articles to improve their quality.