Kristin Belen scite author profile

Kristin Belen

2Publications

0Citation Statements Received

57Citation Statements Given

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University Radiology

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Automated Triage of Screening Breast MRI Examinations in High-Risk Women Using an Ensemble Deep Learning Model

et al. 2023

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Objectives: The aim of the study is to develop and evaluate the performance of a deep learning (DL) model to triage breast magnetic resonance imaging (MRI) findings in high-risk patients without missing any cancers. Materials and Methods: In this retrospective study, 16,535 consecutive contrast-enhanced MRIs performed in 8354 women from January 2013 to January 2019 were collected. From 3 New York imaging sites, 14,768 MRIs were used for the training and validation data set, and 80 randomly selected MRIs were used for a reader study test data set. From 3 New Jersey imaging sites, 1687 MRIs (1441 screening MRIs and 246 MRIs performed in recently diagnosed breast cancer patients) were used for an external validation data set. The DL model was trained to classify maximum intensity projection images as "extremely low suspicion" or "possibly suspicious." Deep learning model evaluation (workload reduction, sensitivity, specificity) was performed on the external validation data set, using a histopathology reference standard. A reader study was performed to compare DL model performance to fellowship-trained breast imaging radiologists. Results: In the external validation data set, the DL model triaged 159/1441 of screening MRIs as "extremely low suspicion" without missing a single cancer, yielding a workload reduction of 11%, a specificity of 11.5%, and a sensitivity of 100%. The model correctly triaged 246/246 (100% sensitivity) of MRIs in recently diagnosed patients as "possibly suspicious." In the reader study, 2 readers classified MRIs with a specificity of 93.62% and 91.49%, respectively, and missed 0 and 1 cancer, respectively. On the other hand, the DL model classified MRIs with a specificity of 19.15% and missed 0 cancers, highlighting its potential use not as an independent reader but as a triage tool. Conclusions: Our automated DL model triages a subset of screening breast MRIs as "extremely low suspicion" without misclassifying any cancer cases. This tool may be used to reduce workload in standalone mode, to shunt low suspicion cases to designated radiologists or to the end of the workday, or to serve as base model for other downstream AI tools.

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Deep Learning for Triage of Normal Breast MRI Exams to an Abbreviated Interpretation Worklist

Bhowmik¹,

Monga²,

Belen³

et al.

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In this abstract, we develop and evaluate a deep learning model to identify completely normal screening breast MRIs for triage to an abbreviated interpretation worklist, a workflow that misses no cancers and markedly reduces radiologist interpretation times. In our held out test set, the algorithm triaged 20% of all screening exams to the abbreviated worklist and 80% to full interpretation worklist for radiologist without missing any cancer exams (100% sensitivity), which reduced the total projected reading time for exams from 148 hours to 119 hours.

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Kristin Belen

Automated Triage of Screening Breast MRI Examinations in High-Risk Women Using an Ensemble Deep Learning Model

Deep Learning for Triage of Normal Breast MRI Exams to an Abbreviated Interpretation Worklist

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