Deep Learning for Fully Automatic Tumor Segmentation on Serially Acquired Dynamic Contrast-Enhanced MRI Images of Triple-Negative Breast Cancer.

Zhan Xu ,Huong T Le‐Petross ,Peng Wei ,Frances Perez ,Sanaz Pashapoor ,Brandy J Reed ,Wei Tse Yang ,Beatriz E Adrada ,Jennifer K Litton ,Jia Sun ,Deanna L Lane ,Bikash Panthi ,Ken Pin Hwang ,Jason B White ,Jong Bum Son ,David E Rauch ,Alyson R Clayborn ,Rania M Mohamed ,Vicente Valero ,Alastair Thompson ,Zijian Zhou ,Debu Tripathy ,Anil Korkut ,Kelly K Hunt ,Benjamin C Musall ,Huiqin Chen ,Rosalind P Candelaria ,Clinton Yam ,Jessica W.t Leung ,Lei Huo ,Jingfei Ma

doi:10.3390/cancers15194829

Deep Learning for Fully Automatic Tumor Segmentation on Serially Acquired Dynamic Contrast-Enhanced MRI Images of Triple-Negative Breast Cancer.

Zhan Xu , Huong T Le‐Petross + Show 29 more

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https://doi.org/10.3390/cancers15194829

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Journal: Cancers	Publication Date: Oct 2, 2023
License type: cc-by

Affiliation: The University of Texas MD Anderson Cancer Center, Baylor College of Medicine

#Model Of Triple-negative Breast Cancer #Dynamic Contrast-Enhanced MRI Images + Show 8 more

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Abstract

Accurate tumor segmentation is required for quantitative image analyses, which are increasingly used for evaluation of tumors. We developed a fully automated and high-performance segmentation model of triple-negative breast cancer using a self-configurable deep learning framework and a large set of dynamic contrast-enhanced MRI images acquired serially over the patients' treatment course. Among all models, the top-performing one that was trained with the images across different time points of a treatment course yielded a Dice similarity coefficient of 93% and a sensitivity of 96% on baseline images. The top-performing model also produced accurate tumor size measurements, which is valuable for practical clinical applications.

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