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基于多参数磁共振成像的计算机辅助诊断在致密型乳腺女性筛查中的应用,以减少假阳性诊断。

Computer-Aided Diagnosis in Multiparametric Magnetic Resonance Imaging Screening of Women With Extremely Dense Breasts to Reduce False-Positive Diagnoses.

机构信息

From the Image Sciences Institute.

Julius Center for Health Sciences and Primary Care.

出版信息

Invest Radiol. 2020 Jul;55(7):438-444. doi: 10.1097/RLI.0000000000000656.

DOI:10.1097/RLI.0000000000000656
PMID:32149858
Abstract

OBJECTIVES

To reduce the number of false-positive diagnoses in the screening of women with extremely dense breasts using magnetic resonance imaging (MRI), we aimed to predict which BI-RADS 3 and BI-RADS 4 lesions are benign. For this purpose, we use computer-aided diagnosis (CAD) based on multiparametric assessment.

MATERIALS AND METHODS

Consecutive data were used from the first screening round of the DENSE (Dense Tissue and Early Breast Neoplasm Screening) trial. In this trial, asymptomatic women with a negative screening mammography and extremely dense breasts were screened using multiparametric MRI. In total, 4783 women, aged 50 to 75 years, enrolled and were screened in 8 participating hospitals between December 2011 and January 2016. In total, 525 lesions in 454 women were given a BI-RADS 3 (n = 202), 4 (n = 304), or 5 score (n = 19). Of these lesions, 444 were benign and 81 were malignant on histologic examination.The MRI protocol consisted of 5 different MRI sequences: T1-weighted imaging without fat suppression, diffusion-weighted imaging, T1-weighted contrast-enhanced images at high spatial resolution, T1-weighted contrast-enhanced images at high temporal resolution, and T2-weighted imaging. A machine-learning method was developed to predict, without deterioration of sensitivity, which of the BI-RADS 3- and BI-RADS 4-scored lesions are actually benign and could be prevented from being recalled. BI-RADS 5 lesions were only used for training, because the gain in preventing false-positive diagnoses is expected to be low in this group. The CAD consists of 2 stages: feature extraction and lesion classification. Two groups of features were extracted: the first based on all multiparametric sequences, the second based only on sequences that are typically used in abbreviated MRI protocols. In the first group, 49 features were used as candidate predictors: 46 were automatically calculated from the MRI scans, supplemented with 3 clinical features (age, body mass index, and BI-RADS score). In the second group, 36 image features and the same 3 clinical features were used. Each group was considered separately in a machine-learning model to differentiate between benign and malignant lesions. We developed a Ridge regression model using 10-fold cross validation. Performance of the models was analyzed using an accuracy measure curve and receiver-operating characteristic analysis.

RESULTS

Of the total number of BI-RADS 3 and BI-RADS 4 lesions referred to additional MRI or biopsy, 425/487 (87.3%) were false-positive. The full multiparametric model classified 176 (41.5%) and the abbreviated-protocol model classified 111 (26.2%) of the 425 false-positive BI-RADS 3- and BI-RADS 4-scored lesions as benign without missing a malignant lesion.If the full multiparametric CAD had been used to aid in referral, recall for biopsy or repeat MRI could have been reduced from 425/487 (87.3%) to 311/487 (63.9%) lesions. For the abbreviated protocol, it could have been 376/487 (77.2%).

CONCLUSIONS

Dedicated multiparametric CAD of breast MRI for BI-RADS 3 and 4 lesions in screening of women with extremely dense breasts has the potential to reduce false-positive diagnoses and consequently to reduce the number of biopsies without missing cancers.

摘要

目的

通过基于多参数评估的计算机辅助诊断(CAD),减少乳腺磁共振成像(MRI)筛查中极度致密乳腺的 BI-RADS 3 和 BI-RADS 4 病变的假阳性诊断数量,以预测哪些 BI-RADS 3 和 BI-RADS 4 病变为良性。

材料与方法

本研究使用了 DENSE(致密组织和早期乳腺癌筛查)试验的首轮筛查数据。在该试验中,对阴性筛查乳腺 X 线摄影且乳腺极度致密的无症状女性进行多参数 MRI 筛查。2011 年 12 月至 2016 年 1 月,8 家参与医院共纳入 4783 名年龄在 50 至 75 岁之间的女性进行筛查。共有 454 名女性的 525 个病变被评为 BI-RADS 3(n = 202)、4(n = 304)或 5 分(n = 19)。其中 444 个病变为良性,81 个病变为恶性,经组织学检查证实。MRI 方案包括 5 种不同的 MRI 序列:无脂肪抑制的 T1 加权成像、弥散加权成像、高空间分辨率 T1 加权对比增强成像、高时间分辨率 T1 加权对比增强成像和 T2 加权成像。开发了一种机器学习方法,用于预测哪些 BI-RADS 3 和 BI-RADS 4 评分的病变实际上是良性的,可以避免召回,而不会降低敏感性。BI-RADS 5 病变仅用于训练,因为预计在该组中,预防假阳性诊断的收益较低。CAD 由两个阶段组成:特征提取和病变分类。提取了两组特征:第一组基于所有多参数序列,第二组仅基于在简化 MRI 方案中常用的序列。在第一组中,使用了 49 个候选预测特征:46 个从 MRI 扫描中自动计算得出,补充了 3 个临床特征(年龄、体重指数和 BI-RADS 评分)。在第二组中,使用了 36 个图像特征和相同的 3 个临床特征。在机器学习模型中分别考虑每组,以区分良性和恶性病变。我们使用 10 折交叉验证开发了岭回归模型。使用准确性测量曲线和接收器操作特征分析来分析模型的性能。

结果

在转诊进行额外的 MRI 或活检的所有 BI-RADS 3 和 BI-RADS 4 病变中,425/487(87.3%)为假阳性。全多参数模型将 176 个(41.5%)和简化协议模型将 111 个(26.2%)的 425 个假阳性 BI-RADS 3 和 BI-RADS 4 评分病变分类为良性,而不会遗漏恶性病变。如果使用全多参数 CAD 辅助转诊,可以将活检或重复 MRI 的召回减少到 311/487(63.9%)病变,对于简化协议,减少到 376/487(77.2%)病变。

结论

针对乳腺 MRI 的 BI-RADS 3 和 4 病变的专用多参数 CAD 有可能减少假阳性诊断,并相应减少良性病变的活检数量,而不会遗漏癌症。

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