Abstract
Radiologists’ diagnostic capabilities for breast mass lesions depend on their experience. Junior radiologists may underestimate or overestimate Breast Imaging Reporting and Data System (BI-RADS) categories of mass lesions owing to a lack of diagnostic experience. The computer-aided diagnosis (CAD) method assists in improving diagnostic performance by providing a breast mass classification reference to radiologists. This study aims to evaluate the impact of a CAD method based on perceptive features learned from quantitative BI-RADS descriptions on breast mass diagnosis performance. We conducted a retrospective multi-reader multi-case (MRMC) study to assess the perceptive feature-based CAD method. A total of 416 digital mammograms of patients with breast masses were obtained from 2014 through 2017, including 231 benign and 185 malignant masses, from which we randomly selected 214 cases (109 benign, 105 malignant) to train the CAD model for perceptive feature extraction and classification. The remaining 202 cases were enrolled as the test set for evaluation, of which 51 patients (29 benign and 22 malignant) participated in the MRMC study. In the MRMC study, we categorized six radiologists into three groups: junior, middle-senior, and senior. They diagnosed 51 patients with and without support from the CAD model. The BI-RADS category, benign or malignant diagnosis, malignancy probability, and diagnosis time during the two evaluation sessions were recorded. In the MRMC evaluation, the average area under the curve (AUC) of the six radiologists with CAD support was slightly higher than that without support (0.896 vs. 0.850, p = 0.0209). Both average sensitivity and specificity increased (p = 0.0253). Under CAD assistance, junior and middle-senior radiologists adjusted the assessment categories of more BI-RADS 4 cases. The diagnosis time with and without CAD support was comparable for five radiologists. The CAD model improved the radiologists’ diagnostic performance for breast masses without prolonging the diagnosis time and assisted in a better BI-RADS assessment, especially for junior radiologists.
Highlights
Full-field digital mammography (FFDM) is considered an effective method for breast cancer screening [1, 2]
We considered only mass lesions to enable radiologists to better focus on Breast Imaging Reporting and Data System (BI-RADS) categories and the reliability of Computer-aided diagnosis (CAD) model results, so as to evaluate the support of CAD models for junior radiologists
We proposed a deep learning-based perceptive feature extractor for breast mass lesion classification
Summary
Full-field digital mammography (FFDM) is considered an effective method for breast cancer screening [1, 2]. Owing to a lack of training, inexperienced radiologists have participated in screening prematurely, resulting in diagnostic inaccuracy and insensitivity of breast cancer, with a resulting increased risk of misdiagnosis and missed diagnosis [6,7,8]. As most breast composition in Chinese women are dense breasts, it further increases the difficulty for inexperienced junior radiologists to recognize the characteristics of breast cancer, especially the margins and shape as the main signs [9,10,11]. Friedewald et al [12] illustrated that radiologists, especially inexperienced junior radiologists, exhibited a decreased diagnostic sensitivity in dense breasts. Broeders et al [13] believed that junior radiologists were inexperienced in the characteristics of breast cancer, which led to inaccuracy in Breast Imaging Reporting and Data System (BIRADS) category evaluation and affected the prognosis of patients
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