The First Clinical Medical College, Lanzhou University, Lanzhou City, China.
Department of Ultrasound, The First Hospital of Lanzhou University, Lanzhou City, China.
J Ultrasound Med. 2022 Jul;41(7):1643-1655. doi: 10.1002/jum.15845. Epub 2021 Oct 5.
To develop and test an optimized radiomics model based on multi-planar automated breast volume scan (ABVS) images to identify malignant and benign breast lesions.
Patients (n = 200) with breast lesions who underwent ABVS examinations were included. For each patient, 208 radiomics features were extracted from the ABVS images, including axial plane and coronal plane. Recursive feature elimination, random forest, and chi-square test were used to select features. A support vector machine, logistic regression, and extreme gradient boosting were utilized as classifiers to differentiate malignant and benign breast lesions. The area under the curve, sensitivity, specificity, accuracy, and precision was used to evaluate the performance of the radiomics models. Generalization of the radiomics models was verified through 5-fold cross-validation.
For a single plane or a combination of planes, a combination of recursive feature elimination, and support vector machine yielded the best performance when identifying breast lesions. The machine learning models based on a combination of planes performed better than those based on a single plane. Regarding the axial plane and coronal plane, the machine learning model using a combination of recursive feature elimination and support vector machine yielded the optimal identification performance: average area under the curve (0.857 ± 0.058, 95% confidence interval, 0.763-0.957); the average values of sensitivity, specificity, accuracy, and precision were 87.9, 68.2, 80.7, and 82.9%, respectively.
The optimized radiomics model based on ABVS images can provide valuable information for identifying benign and malignant breast lesions preoperatively and guide the accurate clinical treatment. Further external validation is required.
开发和测试一种基于多平面自动乳腺容积扫描(ABVS)图像的优化放射组学模型,以识别良恶性乳腺病变。
纳入 200 例接受 ABVS 检查的乳腺病变患者。对每位患者,从 ABVS 图像中提取 208 个放射组学特征,包括轴位和冠状位。采用递归特征消除、随机森林和卡方检验选择特征。支持向量机、逻辑回归和极端梯度提升被用作分类器,以区分良恶性乳腺病变。采用曲线下面积、敏感性、特异性、准确性和精度来评估放射组学模型的性能。通过 5 折交叉验证验证放射组学模型的泛化能力。
对于单一平面或多个平面的组合,递归特征消除和支持向量机相结合用于识别乳腺病变时性能最佳。基于多个平面的机器学习模型的性能优于基于单个平面的模型。在轴位和冠状位方面,基于递归特征消除和支持向量机相结合的机器学习模型具有最佳的识别性能:平均曲线下面积(0.857±0.058,95%置信区间,0.763-0.957);平均敏感性、特异性、准确性和精度分别为 87.9%、68.2%、80.7%和 82.9%。
基于 ABVS 图像的优化放射组学模型可以为术前识别良恶性乳腺病变提供有价值的信息,并指导准确的临床治疗。需要进一步的外部验证。
