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Clinical Evaluation of Commercial Atlas-Based Auto-Segmentation in the Head and Neck Region

Background: While atlas segmentation (AS) has proven to be a time-saving and promising method for radiation therapy contouring, optimal methods for its use have not been well-established. Therefore, we investigated the relationship between the size of the atlas patient population and the atlas segme...

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Autores principales: Lee, Hyothaek, Lee, Eungman, Kim, Nalee, Kim, Joo ho, Park, Kwangwoo, Lee, Ho, Chun, Jaehee, Shin, Jae-ik, Chang, Jee Suk, Kim, Jin Sung
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6465886/
https://www.ncbi.nlm.nih.gov/pubmed/31024843
http://dx.doi.org/10.3389/fonc.2019.00239
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author Lee, Hyothaek
Lee, Eungman
Kim, Nalee
Kim, Joo ho
Park, Kwangwoo
Lee, Ho
Chun, Jaehee
Shin, Jae-ik
Chang, Jee Suk
Kim, Jin Sung
author_facet Lee, Hyothaek
Lee, Eungman
Kim, Nalee
Kim, Joo ho
Park, Kwangwoo
Lee, Ho
Chun, Jaehee
Shin, Jae-ik
Chang, Jee Suk
Kim, Jin Sung
author_sort Lee, Hyothaek
collection PubMed
description Background: While atlas segmentation (AS) has proven to be a time-saving and promising method for radiation therapy contouring, optimal methods for its use have not been well-established. Therefore, we investigated the relationship between the size of the atlas patient population and the atlas segmentation auto contouring (AC) performance. Methods: A total of 110 patients' head planning CT images were selected. The mandible and thyroid were selected for this study. The mandibles and thyroids of the patient population were carefully segmented by two skilled clinicians. Of the 110 patients, 100 random patients were registered to 5 different atlas libraries as atlas patients, in groups of 20 to 100, with increments of 20. AS was conducted for each of the remaining 10 patients, either by simultaneous atlas segmentation (SAS) or independent atlas segmentation (IAS). The AS duration of each target patient was recorded. To validate the accuracy of the generated contours, auto contours were compared to manually generated contours (MC) using a volume-overlap-dependent metric, Dice Similarity Coefficient (DSC), and a distance-dependent metric, Hausdorff Distance (HD). Results: In both organs, as the population increased from n = 20 to n = 60, the results showed better convergence. Generally, independent cases produced better performance than simultaneous cases. For the mandible, the best performance was achieved by n = 60 [DSC = 0.92 (0.01) and HD = 6.73 (1.31) mm] and the worst by n = 100 [DSC = 0.90 (0.03) and HD = 10.10 (6.52) mm] atlas libraries. Similar results were achieved with the thyroid; the best performance was achieved by n = 60 [DSC = 0.79 (0.06) and HD = 10.17 (2.89) mm] and the worst by n = 100 [DSC = 0.72 (0.13) and HD = 12.88 (3.94) mm] atlas libraries. Both IAS and SAS showed similar results. Manual contouring of the mandible and thyroid required an average of 1,044 (±170.15) seconds, while AS required an average of 46.4 (±2.8) seconds. Conclusions: The performance of AS AC generally increased as the population of the atlas library increased. However, the performance does not drastically vary in the larger atlas libraries in contrast to the logic that bigger atlas library should lead to better results. In fact, the results do not vary significantly toward the larger atlas library. It is necessary for the institutions to independently research the optimal number of subjects.
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spelling pubmed-64658862019-04-25 Clinical Evaluation of Commercial Atlas-Based Auto-Segmentation in the Head and Neck Region Lee, Hyothaek Lee, Eungman Kim, Nalee Kim, Joo ho Park, Kwangwoo Lee, Ho Chun, Jaehee Shin, Jae-ik Chang, Jee Suk Kim, Jin Sung Front Oncol Oncology Background: While atlas segmentation (AS) has proven to be a time-saving and promising method for radiation therapy contouring, optimal methods for its use have not been well-established. Therefore, we investigated the relationship between the size of the atlas patient population and the atlas segmentation auto contouring (AC) performance. Methods: A total of 110 patients' head planning CT images were selected. The mandible and thyroid were selected for this study. The mandibles and thyroids of the patient population were carefully segmented by two skilled clinicians. Of the 110 patients, 100 random patients were registered to 5 different atlas libraries as atlas patients, in groups of 20 to 100, with increments of 20. AS was conducted for each of the remaining 10 patients, either by simultaneous atlas segmentation (SAS) or independent atlas segmentation (IAS). The AS duration of each target patient was recorded. To validate the accuracy of the generated contours, auto contours were compared to manually generated contours (MC) using a volume-overlap-dependent metric, Dice Similarity Coefficient (DSC), and a distance-dependent metric, Hausdorff Distance (HD). Results: In both organs, as the population increased from n = 20 to n = 60, the results showed better convergence. Generally, independent cases produced better performance than simultaneous cases. For the mandible, the best performance was achieved by n = 60 [DSC = 0.92 (0.01) and HD = 6.73 (1.31) mm] and the worst by n = 100 [DSC = 0.90 (0.03) and HD = 10.10 (6.52) mm] atlas libraries. Similar results were achieved with the thyroid; the best performance was achieved by n = 60 [DSC = 0.79 (0.06) and HD = 10.17 (2.89) mm] and the worst by n = 100 [DSC = 0.72 (0.13) and HD = 12.88 (3.94) mm] atlas libraries. Both IAS and SAS showed similar results. Manual contouring of the mandible and thyroid required an average of 1,044 (±170.15) seconds, while AS required an average of 46.4 (±2.8) seconds. Conclusions: The performance of AS AC generally increased as the population of the atlas library increased. However, the performance does not drastically vary in the larger atlas libraries in contrast to the logic that bigger atlas library should lead to better results. In fact, the results do not vary significantly toward the larger atlas library. It is necessary for the institutions to independently research the optimal number of subjects. Frontiers Media S.A. 2019-04-09 /pmc/articles/PMC6465886/ /pubmed/31024843 http://dx.doi.org/10.3389/fonc.2019.00239 Text en Copyright © 2019 Lee, Lee, Kim, Kim, Park, Lee, Chun, Shin, Chang and Kim. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Oncology
Lee, Hyothaek
Lee, Eungman
Kim, Nalee
Kim, Joo ho
Park, Kwangwoo
Lee, Ho
Chun, Jaehee
Shin, Jae-ik
Chang, Jee Suk
Kim, Jin Sung
Clinical Evaluation of Commercial Atlas-Based Auto-Segmentation in the Head and Neck Region
title Clinical Evaluation of Commercial Atlas-Based Auto-Segmentation in the Head and Neck Region
title_full Clinical Evaluation of Commercial Atlas-Based Auto-Segmentation in the Head and Neck Region
title_fullStr Clinical Evaluation of Commercial Atlas-Based Auto-Segmentation in the Head and Neck Region
title_full_unstemmed Clinical Evaluation of Commercial Atlas-Based Auto-Segmentation in the Head and Neck Region
title_short Clinical Evaluation of Commercial Atlas-Based Auto-Segmentation in the Head and Neck Region
title_sort clinical evaluation of commercial atlas-based auto-segmentation in the head and neck region
topic Oncology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6465886/
https://www.ncbi.nlm.nih.gov/pubmed/31024843
http://dx.doi.org/10.3389/fonc.2019.00239
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