A framework for computing angle of progression from transperineal ultrasound images for evaluating fetal head descent using a novel double branch network

Background: Accurate assessment of fetal descent by monitoring the fetal head (FH) station remains a clinical challenge in guiding obstetric management. Angle of progression (AoP) has been suggested to be a reliable and reproducible parameter for the assessment of FH descent. Methods: A novel framew...

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Autores principales: Bai, Jieyun, Sun, Zhanhang, Yu, Sheng, Lu, Yaosheng, Long, Shun, Wang, Huijin, Qiu, Ruiyu, Ou, Zhanhong, Zhou, Minghong, Zhi, Dengjiang, Zhou, Mengqiang, Jiang, Xiaosong, Chen, Gaowen
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2022
Materias:
Physiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9755498/
https://www.ncbi.nlm.nih.gov/pubmed/36531181
http://dx.doi.org/10.3389/fphys.2022.940150
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author Bai, Jieyun
Sun, Zhanhang
Yu, Sheng
Lu, Yaosheng
Long, Shun
Wang, Huijin
Qiu, Ruiyu
Ou, Zhanhong
Zhou, Minghong
Zhi, Dengjiang
Zhou, Mengqiang
Jiang, Xiaosong
Chen, Gaowen
author_facet Bai, Jieyun
Sun, Zhanhang
Yu, Sheng
Lu, Yaosheng
Long, Shun
Wang, Huijin
Qiu, Ruiyu
Ou, Zhanhong
Zhou, Minghong
Zhi, Dengjiang
Zhou, Mengqiang
Jiang, Xiaosong
Chen, Gaowen
author_sort Bai, Jieyun
collection PubMed
description Background: Accurate assessment of fetal descent by monitoring the fetal head (FH) station remains a clinical challenge in guiding obstetric management. Angle of progression (AoP) has been suggested to be a reliable and reproducible parameter for the assessment of FH descent. Methods: A novel framework, including image segmentation, target fitting and AoP calculation, is proposed for evaluating fetal descent. For image segmentation, this study presents a novel double branch segmentation network (DBSN), which consists of two parts: an encoding part receives image input, and a decoding part composed of deformable convolutional blocks and ordinary convolutional blocks. The decoding part includes the lower and upper branches, and the feature map of the lower branch is used as the input of the upper branch to assist the upper branch in decoding after being constrained by the attention gate (AG). Given an original transperineal ultrasound (TPU) image, areas of the pubic symphysis (PS) and FH are firstly segmented using the proposed DBSN, the ellipse contours of segmented regions are secondly fitted with the least square method, and three endpoints are finally determined for calculating AoP. Results: Our private dataset with 313 transperineal ultrasound (TPU) images was used for model evaluation with 5-fold cross-validation. The proposed method achieves the highest Dice coefficient (93.4%), the smallest Average Surface Distance (6.268 pixels) and the lowest AoP difference (5.993°) by comparing four state-of-the-art methods. Similar results (Dice coefficient: 91.7%, Average Surface Distance: 7.729 pixels: AoP difference: 5.110°) were obtained on a public dataset with >3,700 TPU images for evaluating its generalization performance. Conclusion: The proposed framework may be used for the automatic measurement of AoP with high accuracy and generalization performance. However, its clinical availability needs to be further evaluated.
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spelling pubmed-97554982022-12-17 A framework for computing angle of progression from transperineal ultrasound images for evaluating fetal head descent using a novel double branch network Bai, Jieyun Sun, Zhanhang Yu, Sheng Lu, Yaosheng Long, Shun Wang, Huijin Qiu, Ruiyu Ou, Zhanhong Zhou, Minghong Zhi, Dengjiang Zhou, Mengqiang Jiang, Xiaosong Chen, Gaowen Front Physiol Physiology Background: Accurate assessment of fetal descent by monitoring the fetal head (FH) station remains a clinical challenge in guiding obstetric management. Angle of progression (AoP) has been suggested to be a reliable and reproducible parameter for the assessment of FH descent. Methods: A novel framework, including image segmentation, target fitting and AoP calculation, is proposed for evaluating fetal descent. For image segmentation, this study presents a novel double branch segmentation network (DBSN), which consists of two parts: an encoding part receives image input, and a decoding part composed of deformable convolutional blocks and ordinary convolutional blocks. The decoding part includes the lower and upper branches, and the feature map of the lower branch is used as the input of the upper branch to assist the upper branch in decoding after being constrained by the attention gate (AG). Given an original transperineal ultrasound (TPU) image, areas of the pubic symphysis (PS) and FH are firstly segmented using the proposed DBSN, the ellipse contours of segmented regions are secondly fitted with the least square method, and three endpoints are finally determined for calculating AoP. Results: Our private dataset with 313 transperineal ultrasound (TPU) images was used for model evaluation with 5-fold cross-validation. The proposed method achieves the highest Dice coefficient (93.4%), the smallest Average Surface Distance (6.268 pixels) and the lowest AoP difference (5.993°) by comparing four state-of-the-art methods. Similar results (Dice coefficient: 91.7%, Average Surface Distance: 7.729 pixels: AoP difference: 5.110°) were obtained on a public dataset with >3,700 TPU images for evaluating its generalization performance. Conclusion: The proposed framework may be used for the automatic measurement of AoP with high accuracy and generalization performance. However, its clinical availability needs to be further evaluated. Frontiers Media S.A. 2022-12-02 /pmc/articles/PMC9755498/ /pubmed/36531181 http://dx.doi.org/10.3389/fphys.2022.940150 Text en Copyright © 2022 Bai, Sun, Yu, Lu, Long, Wang, Qiu, Ou, Zhou, Zhi, Zhou, Jiang and Chen. https://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 Physiology
Bai, Jieyun
Sun, Zhanhang
Yu, Sheng
Lu, Yaosheng
Long, Shun
Wang, Huijin
Qiu, Ruiyu
Ou, Zhanhong
Zhou, Minghong
Zhi, Dengjiang
Zhou, Mengqiang
Jiang, Xiaosong
Chen, Gaowen
A framework for computing angle of progression from transperineal ultrasound images for evaluating fetal head descent using a novel double branch network
title A framework for computing angle of progression from transperineal ultrasound images for evaluating fetal head descent using a novel double branch network
title_full A framework for computing angle of progression from transperineal ultrasound images for evaluating fetal head descent using a novel double branch network
title_fullStr A framework for computing angle of progression from transperineal ultrasound images for evaluating fetal head descent using a novel double branch network
title_full_unstemmed A framework for computing angle of progression from transperineal ultrasound images for evaluating fetal head descent using a novel double branch network
title_short A framework for computing angle of progression from transperineal ultrasound images for evaluating fetal head descent using a novel double branch network
title_sort framework for computing angle of progression from transperineal ultrasound images for evaluating fetal head descent using a novel double branch network
topic Physiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9755498/
https://www.ncbi.nlm.nih.gov/pubmed/36531181
http://dx.doi.org/10.3389/fphys.2022.940150
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