Gated self attention Convolutional Neural Networks for predicting adverse birth outcomes

Ivan Jordanov; Daniel Asfaw; Lawrence Impey; Raymond  Lee; Ana Namburete; Antoniya Georgieva

doi:10.1109/IIAI-AAI63651.2024.00057

Gated self attention Convolutional Neural Networks for predicting adverse birth outcomes

Ivan Jordanov^*, Daniel Asfaw, Lawrence Impey, Raymond Lee, Ana Namburete, Antoniya Georgieva

^*Corresponding author for this work

University of Oxford

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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Abstract

Early detection of adverse birth outcomes is vital as they are major contributors to neonatal mortality and irreversible neurological complications in infants. These outcomes are typically linked to impaired blood and oxygen flow to the baby brain during or shortly after labour, making its early detection vital. Monitoring fetal heart rate (FHR) is crucial in identifying and capturing these complications. This study proposes a deep learning (DL) framework for enhancing the early detection of the babies at risk, leveraging both raw FHR signals and standard cardiotocography (CTG) features. Unlike traditional methods that primarily focus on abnormal CTG traces (but not birth outcomes), this approach, backed by a substantial cohort of patient records, demonstrates the potential of DL in predicting actual adverse outcomes as early as possible. The DL model combines a convolutional mechanism with a self-attention network, enhanced by a gating mechanism for more accurate feature learning. The investigated DL architecture is trained on a dataset of over 37,000 births, including 1,291 abnormal ones, and is evaluated on a holdout set of 6,459 births, as well as the open-access CTU-CHB CTG dataset of 552 births. The proposed DL model demonstrates superior diagnostic accuracy, outperforming state-of-the-art baseline methods and clinical benchmarks. It achieved sensitivity of 49.08% (95% CI, 46.01-53.36%) at 15% false positive rate (FPR), compared to the clinical benchmark sensitivity of 37.70% (33.10-42.30%) and a previous model's 32.60% (28.20-37.30%) at a similar FPR.

Original language	English
Title of host publication	2024 16th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI)
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	259-266
ISBN (Electronic)	9798350377903
ISBN (Print)	9798350377910
DOIs	https://doi.org/10.1109/IIAI-AAI63651.2024.00057
Publication status	Published - 15 Oct 2024
Event	2024 16th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI) - Takamatsu, Japan Duration: 6 Jul 2024 → 12 Oct 2024 Conference number: 16 https://ieeexplore.ieee.org/xpl/conhome/10707773/proceeding

Publication series

Name	Proceedings of the IIAI International Congress on Advanced Applied Informatics
Publisher	IEEE
ISSN (Print)	2472-0070

Conference

Conference	2024 16th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI)
Abbreviated title	IIAI-AAI
Country/Territory	Japan
City	Takamatsu
Period	6/07/24 → 12/10/24
Internet address	https://ieeexplore.ieee.org/xpl/conhome/10707773/proceeding

Keywords

Deep learning
Attention neural networks
CTG
FHR
Fetal monitoring

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1109/IIAI-AAI63651.2024.00057

Gated_Self_Attention_Convolutional_Neural
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Accepted author manuscript (Post-print), 1.34 MB

Cite this

Jordanov, I., Asfaw, D., Impey, L., Lee, R., Namburete, A., & Georgieva, A. (2024). Gated self attention Convolutional Neural Networks for predicting adverse birth outcomes. In 2024 16th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI) (pp. 259-266). (Proceedings of the IIAI International Congress on Advanced Applied Informatics). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/IIAI-AAI63651.2024.00057

Jordanov, Ivan ; Asfaw, Daniel ; Impey, Lawrence et al. / Gated self attention Convolutional Neural Networks for predicting adverse birth outcomes. 2024 16th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI). Institute of Electrical and Electronics Engineers Inc., 2024. pp. 259-266 (Proceedings of the IIAI International Congress on Advanced Applied Informatics).

@inproceedings{159d990bbfda4dcba2bdb2d0745f831b,

title = "Gated self attention Convolutional Neural Networks for predicting adverse birth outcomes",

abstract = "Early detection of adverse birth outcomes is vital as they are major contributors to neonatal mortality and irreversible neurological complications in infants. These outcomes are typically linked to impaired blood and oxygen flow to the baby brain during or shortly after labour, making its early detection vital. Monitoring fetal heart rate (FHR) is crucial in identifying and capturing these complications. This study proposes a deep learning (DL) framework for enhancing the early detection of the babies at risk, leveraging both raw FHR signals and standard cardiotocography (CTG) features. Unlike traditional methods that primarily focus on abnormal CTG traces (but not birth outcomes), this approach, backed by a substantial cohort of patient records, demonstrates the potential of DL in predicting actual adverse outcomes as early as possible. The DL model combines a convolutional mechanism with a self-attention network, enhanced by a gating mechanism for more accurate feature learning. The investigated DL architecture is trained on a dataset of over 37,000 births, including 1,291 abnormal ones, and is evaluated on a holdout set of 6,459 births, as well as the open-access CTU-CHB CTG dataset of 552 births. The proposed DL model demonstrates superior diagnostic accuracy, outperforming state-of-the-art baseline methods and clinical benchmarks. It achieved sensitivity of 49.08% (95% CI, 46.01-53.36%) at 15% false positive rate (FPR), compared to the clinical benchmark sensitivity of 37.70% (33.10-42.30%) and a previous model's 32.60% (28.20-37.30%) at a similar FPR.",

keywords = "Deep learning, Attention neural networks, CTG, FHR, Fetal monitoring",

author = "Ivan Jordanov and Daniel Asfaw and Lawrence Impey and Raymond Lee and Ana Namburete and Antoniya Georgieva",

year = "2024",

month = oct,

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doi = "10.1109/IIAI-AAI63651.2024.00057",

language = "English",

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series = "Proceedings of the IIAI International Congress on Advanced Applied Informatics",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "259--266",

booktitle = "2024 16th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI)",

address = "United States",

note = "2024 16th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI), IIAI-AAI ; Conference date: 06-07-2024 Through 12-10-2024",

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Jordanov, I, Asfaw, D, Impey, L, Lee, R, Namburete, A & Georgieva, A 2024, Gated self attention Convolutional Neural Networks for predicting adverse birth outcomes. in 2024 16th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI). Proceedings of the IIAI International Congress on Advanced Applied Informatics, Institute of Electrical and Electronics Engineers Inc., pp. 259-266, 2024 16th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI), Takamatsu, Japan, 6/07/24. https://doi.org/10.1109/IIAI-AAI63651.2024.00057

Gated self attention Convolutional Neural Networks for predicting adverse birth outcomes. / Jordanov, Ivan; Asfaw, Daniel; Impey, Lawrence et al.
2024 16th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI). Institute of Electrical and Electronics Engineers Inc., 2024. p. 259-266 (Proceedings of the IIAI International Congress on Advanced Applied Informatics).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - Gated self attention Convolutional Neural Networks for predicting adverse birth outcomes

AU - Jordanov, Ivan

AU - Asfaw, Daniel

AU - Impey, Lawrence

AU - Lee, Raymond

AU - Namburete, Ana

AU - Georgieva, Antoniya

N1 - Conference code: 16

PY - 2024/10/15

Y1 - 2024/10/15

N2 - Early detection of adverse birth outcomes is vital as they are major contributors to neonatal mortality and irreversible neurological complications in infants. These outcomes are typically linked to impaired blood and oxygen flow to the baby brain during or shortly after labour, making its early detection vital. Monitoring fetal heart rate (FHR) is crucial in identifying and capturing these complications. This study proposes a deep learning (DL) framework for enhancing the early detection of the babies at risk, leveraging both raw FHR signals and standard cardiotocography (CTG) features. Unlike traditional methods that primarily focus on abnormal CTG traces (but not birth outcomes), this approach, backed by a substantial cohort of patient records, demonstrates the potential of DL in predicting actual adverse outcomes as early as possible. The DL model combines a convolutional mechanism with a self-attention network, enhanced by a gating mechanism for more accurate feature learning. The investigated DL architecture is trained on a dataset of over 37,000 births, including 1,291 abnormal ones, and is evaluated on a holdout set of 6,459 births, as well as the open-access CTU-CHB CTG dataset of 552 births. The proposed DL model demonstrates superior diagnostic accuracy, outperforming state-of-the-art baseline methods and clinical benchmarks. It achieved sensitivity of 49.08% (95% CI, 46.01-53.36%) at 15% false positive rate (FPR), compared to the clinical benchmark sensitivity of 37.70% (33.10-42.30%) and a previous model's 32.60% (28.20-37.30%) at a similar FPR.

AB - Early detection of adverse birth outcomes is vital as they are major contributors to neonatal mortality and irreversible neurological complications in infants. These outcomes are typically linked to impaired blood and oxygen flow to the baby brain during or shortly after labour, making its early detection vital. Monitoring fetal heart rate (FHR) is crucial in identifying and capturing these complications. This study proposes a deep learning (DL) framework for enhancing the early detection of the babies at risk, leveraging both raw FHR signals and standard cardiotocography (CTG) features. Unlike traditional methods that primarily focus on abnormal CTG traces (but not birth outcomes), this approach, backed by a substantial cohort of patient records, demonstrates the potential of DL in predicting actual adverse outcomes as early as possible. The DL model combines a convolutional mechanism with a self-attention network, enhanced by a gating mechanism for more accurate feature learning. The investigated DL architecture is trained on a dataset of over 37,000 births, including 1,291 abnormal ones, and is evaluated on a holdout set of 6,459 births, as well as the open-access CTU-CHB CTG dataset of 552 births. The proposed DL model demonstrates superior diagnostic accuracy, outperforming state-of-the-art baseline methods and clinical benchmarks. It achieved sensitivity of 49.08% (95% CI, 46.01-53.36%) at 15% false positive rate (FPR), compared to the clinical benchmark sensitivity of 37.70% (33.10-42.30%) and a previous model's 32.60% (28.20-37.30%) at a similar FPR.

KW - Deep learning

KW - Attention neural networks

KW - CTG

KW - FHR

KW - Fetal monitoring

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ER -

Jordanov I, Asfaw D, Impey L, Lee R, Namburete A, Georgieva A. Gated self attention Convolutional Neural Networks for predicting adverse birth outcomes. In 2024 16th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI). Institute of Electrical and Electronics Engineers Inc. 2024. p. 259-266. (Proceedings of the IIAI International Congress on Advanced Applied Informatics). doi: 10.1109/IIAI-AAI63651.2024.00057

Gated self attention Convolutional Neural Networks for predicting adverse birth outcomes

Abstract

Publication series

Conference

Keywords

UN SDGs

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