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Automated Machine Learning (AutoML) derived pre-conception predictive risk model to guide early intervention for Gestational Diabetes Mellitus

Automated Machine Learning (AutoML) derived pre-conception predictive risk model to guide early intervention for Gestational Diabetes Mellitus
Automated Machine Learning (AutoML) derived pre-conception predictive risk model to guide early intervention for Gestational Diabetes Mellitus
The increasing prevalence of gestational diabetes mellitus (GDM) is contributing to the rising global burden of type 2 diabetes (T2D) and intergenerational cycle of chronic metabolic disorders. Primary lifestyle interventions to manage GDM, including second trimester dietary and exercise guidance, have met with limited success due to late implementation, poor adherence and generic guidelines. In this study, we aimed to build a preconception-based GDM predictor to enable early intervention. We also assessed the associations of top predictors with GDM and adverse birth outcomes. Our evolutionary algorithm-based automated machine learning (AutoML) model was implemented with data from 222 Asian multi-ethnic women in a preconception cohort study, Singapore Preconception Study of Long-Term Maternal and Child Outcomes (S-PRESTO). A stacked ensemble model with a gradient boosting classifier and linear support vector machine classifier (stochastic gradient descent training) was derived using genetic programming, achieving an excellent AUC of 0.93 based on four features (glycated hemoglobin A1c (HbA1c), mean arterial blood pressure, fasting insulin, triglycerides/HDL ratio). The results of multivariate logistic regression model showed that each 1 mmol/mol increase in preconception HbA1c was positively associated with increased risks of GDM (p = 0.001, odds ratio (95% CI) 1.34 (1.13–1.60)) and preterm birth (p = 0.011, odds ratio 1.63 (1.12–2.38)). Optimal control of preconception HbA1c may aid in preventing GDM and reducing the incidence of preterm birth. Our trained predictor has been deployed as a web application that can be easily employed in GDM intervention programs, prior to conception.
Asian populations, HbA1c, digital health, gestational diabetes mellitus, machine learning, preconception care, prediction, preterm birth, public health, risk factors
1660-4601
Kumar, Mukkesh
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Ang, Li Ting
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Png, Hang
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Ng, Maisie
c0ffe551-8ff2-4fd3-9de2-fcdfe8ff4755
Tan, Karen
9f6b690c-1480-4a39-a344-8a827a483314
Loy, See Ling
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Tan, Kok Hian
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Chan, Jerry K.Y.
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Godfrey, Keith
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Chan, Shiao-Yng
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Chong, Yap-Seng
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Eriksson, Johan G.
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Feng, Mengling
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Karmani, Neerja
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Kumar, Mukkesh
3d4b1f90-bf7b-4d7c-b400-8678bfdf5812
Ang, Li Ting
962bd631-b5b0-421d-8103-f3d6545b43c2
Png, Hang
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Ng, Maisie
c0ffe551-8ff2-4fd3-9de2-fcdfe8ff4755
Tan, Karen
9f6b690c-1480-4a39-a344-8a827a483314
Loy, See Ling
6fd10b64-1de2-419e-a5f4-b505be233e6e
Tan, Kok Hian
4714c94d-334a-42ad-b879-f3aa3a931def
Chan, Jerry K.Y.
02be1a7b-b6bc-43e5-b195-0f0253f60afb
Godfrey, Keith
0931701e-fe2c-44b5-8f0d-ec5c7477a6fd
Chan, Shiao-Yng
3c9d8970-2cc4-430a-86a7-96f6029a5293
Chong, Yap-Seng
7043124b-e892-4d4b-8bb7-6d35ed94e136
Eriksson, Johan G.
eb96b1c5-af07-4a52-8a73-7541451d32cd
Feng, Mengling
5487f056-fde1-460a-88f9-4471bc096682
Karmani, Neerja
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Kumar, Mukkesh, Ang, Li Ting, Png, Hang, Ng, Maisie, Tan, Karen, Loy, See Ling, Tan, Kok Hian, Chan, Jerry K.Y., Godfrey, Keith, Chan, Shiao-Yng, Chong, Yap-Seng, Eriksson, Johan G., Feng, Mengling and Karmani, Neerja (2022) Automated Machine Learning (AutoML) derived pre-conception predictive risk model to guide early intervention for Gestational Diabetes Mellitus. International Journal of Environmental Research and Public Health, 19 (11), [6792]. (doi:10.3390/ijerph19116792).

Record type: Article

Abstract

The increasing prevalence of gestational diabetes mellitus (GDM) is contributing to the rising global burden of type 2 diabetes (T2D) and intergenerational cycle of chronic metabolic disorders. Primary lifestyle interventions to manage GDM, including second trimester dietary and exercise guidance, have met with limited success due to late implementation, poor adherence and generic guidelines. In this study, we aimed to build a preconception-based GDM predictor to enable early intervention. We also assessed the associations of top predictors with GDM and adverse birth outcomes. Our evolutionary algorithm-based automated machine learning (AutoML) model was implemented with data from 222 Asian multi-ethnic women in a preconception cohort study, Singapore Preconception Study of Long-Term Maternal and Child Outcomes (S-PRESTO). A stacked ensemble model with a gradient boosting classifier and linear support vector machine classifier (stochastic gradient descent training) was derived using genetic programming, achieving an excellent AUC of 0.93 based on four features (glycated hemoglobin A1c (HbA1c), mean arterial blood pressure, fasting insulin, triglycerides/HDL ratio). The results of multivariate logistic regression model showed that each 1 mmol/mol increase in preconception HbA1c was positively associated with increased risks of GDM (p = 0.001, odds ratio (95% CI) 1.34 (1.13–1.60)) and preterm birth (p = 0.011, odds ratio 1.63 (1.12–2.38)). Optimal control of preconception HbA1c may aid in preventing GDM and reducing the incidence of preterm birth. Our trained predictor has been deployed as a web application that can be easily employed in GDM intervention programs, prior to conception.

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Accepted/In Press date: 30 May 2022
Published date: 1 June 2022
Additional Information: Funding Information: Funding: The S-PRESTO cohort study is supported by the National Research Foundation (NRF) under the Open Fund-Large Collaborative Grant No. OF-LCG; MOH-000504 administered by the Singapore Ministry of Health’s National Medical Research Council (NMRC) and the Agency for Science, Technology and Research (A*STAR). This research is supported by NMRC’s Open Fund— Large Collaborative Grant, titled ‘Metabolic Health in Asian Women and their Children’ (award no. OFLCG19may-0033). K.M.G. is supported by the UK Medical Research Council (MC_UU_12011/4), the National Institute for Health Research (NIHR Senior Investigator (NF-SI-0515-10042) and NIHR Southampton Biomedical Research Centre (IS-BRC-1215-20004)) and the British Heart Foundation (RG/15/17/3174). Additional funds for data analysis were supported by the Strategic Positioning Fund and IAFpp funds (H17/01/a0/005) available to N.K. through A*STAR (award number SPF 002/2013). Funding Information: Conflicts of Interest: N.K., K.M.G., S.-y.C. and Y.S.C. are part of an academic consortium that has received research funding from Abbott Nutrition, Nestec, BenevolentAI Bio Ltd. and Danone. MF was partially supported by the National Research Foundation Singapore under its AI Singapore Programme (award number: AISG-GC-2019-001-2A). Other authors declare no conflicts of interest. Publisher Copyright: © 2022 by the authors. Licensee MDPI, Basel, Switzerland.
Keywords: Asian populations, HbA1c, digital health, gestational diabetes mellitus, machine learning, preconception care, prediction, preterm birth, public health, risk factors

Identifiers

Local EPrints ID: 458239
URI: http://eprints.soton.ac.uk/id/eprint/458239
ISSN: 1660-4601
PURE UUID: 1c567271-8873-4e7b-980b-232116360c8e
ORCID for Keith Godfrey: ORCID iD orcid.org/0000-0002-4643-0618

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Date deposited: 01 Jul 2022 17:02
Last modified: 17 Mar 2024 02:38

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Contributors

Author: Mukkesh Kumar
Author: Li Ting Ang
Author: Hang Png
Author: Maisie Ng
Author: Karen Tan
Author: See Ling Loy
Author: Kok Hian Tan
Author: Jerry K.Y. Chan
Author: Keith Godfrey ORCID iD
Author: Shiao-Yng Chan
Author: Yap-Seng Chong
Author: Johan G. Eriksson
Author: Mengling Feng
Author: Neerja Karmani

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