Machine learning-based discrimination of benign and malignant breast lesions on US: The contribution of shear-wave elastography

IF 3.2 3区 医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING European Journal of Radiology Pub Date : 2024-10-18 DOI:10.1016/j.ejrad.2024.111795
Ludovica Rita La Rocca , Martina Caruso , Arnaldo Stanzione , Nicola Rocco , Tommaso Pellegrino , Daniela Russo , Maria Salatiello , Andrea de Giorgio , Roberta Pastore , Simone Maurea , Arturo Brunetti , Renato Cuocolo , Valeria Romeo
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Abstract

Purpose

To build and validate a combined radiomics and machine learning (ML) approach using B-mode US and SWE images to differentiate benign from malignant solid breast lesions (BLs) and compare its performance with that of an expert radiologist.

Methods

Patients with at least one BI-RADS 2–6 BL who performed breast US integrated with SWE were retrospectively included. B-mode US and SWE images were manually segmented to extract radiomics features. A multi-step feature selection process was performed and a predictive model built using the Logistic Regression algorithm. The diagnostic accuracy was evaluated with the AUC and Matthews Correlation Coefficient (MCC) metrics. The performance of the ML classifier was compared to that of an expert radiologist.

Results

427 Bls were included and divided into a training (286 BLs, of which 127 benign and 159 malignant) and a test set (141 BLs, of which 59 benign and 82 malignant). Of 1098 features extracted from B-mode US and SWE images, 13 were finally selected. The ML classifier showed an AUC of 0.768 and 0.746, and an MCC of 0.403 and 0.423 in the training and test sets, respectively. The performance was higher than that of the expert radiologist assessing only B-mode US images, but significantly lower when SWE images were also provided.

Conclusion

A ML approach based on B-mode US and SWE images may represent a potential tool in the characterization of BLs. SWE still gives its most relevant contribution in the clinical setting rather than included in a radiomics pipeline.
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基于机器学习的 US 良性和恶性乳腺病变鉴别:剪切波弹性成像技术的贡献。
目的:利用 B 型 US 和 SWE 图像建立并验证一种结合放射组学和机器学习(ML)的方法,以区分乳腺实体病变(BL)的良恶性,并将其性能与放射科专家的性能进行比较:回顾性纳入至少有一个 BI-RADS 2-6 BL 的患者,这些患者的乳腺 US 与 SWE 相结合。手动分割 B 型 US 和 SWE 图像以提取放射组学特征。进行多步骤特征选择,并使用逻辑回归算法建立预测模型。诊断准确性通过 AUC 和马修斯相关系数 (Matthews Correlation Coefficient, MCC) 指标进行评估。将 ML 分类器的性能与放射科专家的性能进行了比较:共纳入 427 个BL,分为训练集(286 个BL,其中 127 个良性,159 个恶性)和测试集(141 个BL,其中 59 个良性,82 个恶性)。从 B 型 US 和 SWE 图像中提取的 1098 个特征中,最终选出 13 个。在训练集和测试集中,ML 分类器的 AUC 分别为 0.768 和 0.746,MCC 分别为 0.403 和 0.423。其性能高于仅评估 B 型 US 图像的放射科专家,但在同时提供 SWE 图像时,其性能明显降低:结论:基于 B 型 US 和 SWE 图像的 ML 方法可能是表征 BL 的一种潜在工具。在临床环境中,SWE 仍能做出最大贡献,而不是将其纳入放射组学管道中。
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来源期刊
CiteScore
6.70
自引率
3.00%
发文量
398
审稿时长
42 days
期刊介绍: European Journal of Radiology is an international journal which aims to communicate to its readers, state-of-the-art information on imaging developments in the form of high quality original research articles and timely reviews on current developments in the field. Its audience includes clinicians at all levels of training including radiology trainees, newly qualified imaging specialists and the experienced radiologist. Its aim is to inform efficient, appropriate and evidence-based imaging practice to the benefit of patients worldwide.
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