Deep learning assessment of breast terminal duct lobular unit involution: Towards automated prediction of breast cancer risk

Terminal duct lobular unit (TDLU) involution is the regression of milk-producing structures in the breast. Women with less TDLU involution are more likely to develop breast cancer. A major bottleneck in studying TDLU involution in large cohort studies is the need for labor-intensive manual assessmen...

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Autores principales: Wetstein, Suzanne C., Onken, Allison M., Luffman, Christina, Baker, Gabrielle M., Pyle, Michael E., Kensler, Kevin H., Liu, Ying, Bakker, Bart, Vlutters, Ruud, van Leeuwen, Marinus B., Collins, Laura C., Schnitt, Stuart J., Pluim, Josien P. W., Tamimi, Rulla M., Heng, Yujing J., Veta, Mitko
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2020
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7159218/
https://www.ncbi.nlm.nih.gov/pubmed/32294107
http://dx.doi.org/10.1371/journal.pone.0231653
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author Wetstein, Suzanne C.
Onken, Allison M.
Luffman, Christina
Baker, Gabrielle M.
Pyle, Michael E.
Kensler, Kevin H.
Liu, Ying
Bakker, Bart
Vlutters, Ruud
van Leeuwen, Marinus B.
Collins, Laura C.
Schnitt, Stuart J.
Pluim, Josien P. W.
Tamimi, Rulla M.
Heng, Yujing J.
Veta, Mitko
author_facet Wetstein, Suzanne C.
Onken, Allison M.
Luffman, Christina
Baker, Gabrielle M.
Pyle, Michael E.
Kensler, Kevin H.
Liu, Ying
Bakker, Bart
Vlutters, Ruud
van Leeuwen, Marinus B.
Collins, Laura C.
Schnitt, Stuart J.
Pluim, Josien P. W.
Tamimi, Rulla M.
Heng, Yujing J.
Veta, Mitko
author_sort Wetstein, Suzanne C.
collection PubMed
description Terminal duct lobular unit (TDLU) involution is the regression of milk-producing structures in the breast. Women with less TDLU involution are more likely to develop breast cancer. A major bottleneck in studying TDLU involution in large cohort studies is the need for labor-intensive manual assessment of TDLUs. We developed a computational pathology solution to automatically capture TDLU involution measures. Whole slide images (WSIs) of benign breast biopsies were obtained from the Nurses’ Health Study. A set of 92 WSIs was annotated for acini, TDLUs and adipose tissue to train deep convolutional neural network (CNN) models for detection of acini, and segmentation of TDLUs and adipose tissue. These networks were integrated into a single computational method to capture TDLU involution measures including number of TDLUs per tissue area, median TDLU span and median number of acini per TDLU. We validated our method on 40 additional WSIs by comparing with manually acquired measures. Our CNN models detected acini with an F1 score of 0.73±0.07, and segmented TDLUs and adipose tissue with Dice scores of 0.84±0.13 and 0.87±0.04, respectively. The inter-observer ICC scores for manual assessments on 40 WSIs of number of TDLUs per tissue area, median TDLU span, and median acini count per TDLU were 0.71, 0.81 and 0.73, respectively. Intra-observer reliability was evaluated on 10/40 WSIs with ICC scores of >0.8. Inter-observer ICC scores between automated results and the mean of the two observers were: 0.80 for number of TDLUs per tissue area, 0.57 for median TDLU span, and 0.80 for median acini count per TDLU. TDLU involution measures evaluated by manual and automated assessment were inversely associated with age and menopausal status. We developed a computational pathology method to measure TDLU involution. This technology eliminates the labor-intensiveness and subjectivity of manual TDLU assessment, and can be applied to future breast cancer risk studies.
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spelling pubmed-71592182020-04-22 Deep learning assessment of breast terminal duct lobular unit involution: Towards automated prediction of breast cancer risk Wetstein, Suzanne C. Onken, Allison M. Luffman, Christina Baker, Gabrielle M. Pyle, Michael E. Kensler, Kevin H. Liu, Ying Bakker, Bart Vlutters, Ruud van Leeuwen, Marinus B. Collins, Laura C. Schnitt, Stuart J. Pluim, Josien P. W. Tamimi, Rulla M. Heng, Yujing J. Veta, Mitko PLoS One Research Article Terminal duct lobular unit (TDLU) involution is the regression of milk-producing structures in the breast. Women with less TDLU involution are more likely to develop breast cancer. A major bottleneck in studying TDLU involution in large cohort studies is the need for labor-intensive manual assessment of TDLUs. We developed a computational pathology solution to automatically capture TDLU involution measures. Whole slide images (WSIs) of benign breast biopsies were obtained from the Nurses’ Health Study. A set of 92 WSIs was annotated for acini, TDLUs and adipose tissue to train deep convolutional neural network (CNN) models for detection of acini, and segmentation of TDLUs and adipose tissue. These networks were integrated into a single computational method to capture TDLU involution measures including number of TDLUs per tissue area, median TDLU span and median number of acini per TDLU. We validated our method on 40 additional WSIs by comparing with manually acquired measures. Our CNN models detected acini with an F1 score of 0.73±0.07, and segmented TDLUs and adipose tissue with Dice scores of 0.84±0.13 and 0.87±0.04, respectively. The inter-observer ICC scores for manual assessments on 40 WSIs of number of TDLUs per tissue area, median TDLU span, and median acini count per TDLU were 0.71, 0.81 and 0.73, respectively. Intra-observer reliability was evaluated on 10/40 WSIs with ICC scores of >0.8. Inter-observer ICC scores between automated results and the mean of the two observers were: 0.80 for number of TDLUs per tissue area, 0.57 for median TDLU span, and 0.80 for median acini count per TDLU. TDLU involution measures evaluated by manual and automated assessment were inversely associated with age and menopausal status. We developed a computational pathology method to measure TDLU involution. This technology eliminates the labor-intensiveness and subjectivity of manual TDLU assessment, and can be applied to future breast cancer risk studies. Public Library of Science 2020-04-15 /pmc/articles/PMC7159218/ /pubmed/32294107 http://dx.doi.org/10.1371/journal.pone.0231653 Text en © 2020 Wetstein et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Wetstein, Suzanne C.
Onken, Allison M.
Luffman, Christina
Baker, Gabrielle M.
Pyle, Michael E.
Kensler, Kevin H.
Liu, Ying
Bakker, Bart
Vlutters, Ruud
van Leeuwen, Marinus B.
Collins, Laura C.
Schnitt, Stuart J.
Pluim, Josien P. W.
Tamimi, Rulla M.
Heng, Yujing J.
Veta, Mitko
Deep learning assessment of breast terminal duct lobular unit involution: Towards automated prediction of breast cancer risk
title Deep learning assessment of breast terminal duct lobular unit involution: Towards automated prediction of breast cancer risk
title_full Deep learning assessment of breast terminal duct lobular unit involution: Towards automated prediction of breast cancer risk
title_fullStr Deep learning assessment of breast terminal duct lobular unit involution: Towards automated prediction of breast cancer risk
title_full_unstemmed Deep learning assessment of breast terminal duct lobular unit involution: Towards automated prediction of breast cancer risk
title_short Deep learning assessment of breast terminal duct lobular unit involution: Towards automated prediction of breast cancer risk
title_sort deep learning assessment of breast terminal duct lobular unit involution: towards automated prediction of breast cancer risk
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7159218/
https://www.ncbi.nlm.nih.gov/pubmed/32294107
http://dx.doi.org/10.1371/journal.pone.0231653
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