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Study protocol for the Bio-HEAT study: investigating the biological pathways from HEAT exposure to preterm birth and other adverse maternal and child health outcomes in South Africa

Study protocol for the Bio-HEAT study: investigating the biological pathways from HEAT exposure to preterm birth and other adverse maternal and child health outcomes in South Africa
Study protocol for the Bio-HEAT study: investigating the biological pathways from HEAT exposure to preterm birth and other adverse maternal and child health outcomes in South Africa
Abstract: introduction: Epidemiological evidence linking heat exposure to adverse maternal and child health outcomes is compelling. However, the biological and social mechanisms underlying these associations remain poorly understood. Understanding the pathways explaining these associations is important given rising global temperatures, and the urgent need for developing and testing adaptive interventions.

Methods: this transdisciplinary study in Johannesburg, South Africa, will monitor a cohort of 200 women from their second trimester until one-year postpartum, alongside their infants. Heat exposure and environmental factors will be tracked using personal, community and facility-level temperature monitors and geospatial data. Data will be collected on social conditions, medical and obstetric history, heat stress and adaptation, hydration, mental wellbeing, and sleep quality. Clinical data includes physical measurements, ultrasound, cardiotocography, and biological specimens (blood, urine, saliva) analysed for inflammatory markers, RNA, metabolic indicators, renal function and hormonal levels. Placental and cord blood analyses will assess foetal stress. Infant data will include medical history, hospital visits, neurodevelopment, anthropometric measurements, vital signs, and urine analysis. Three nested sub-studies (20-50 participants) will explore specific aspects: Sub-study 1 will use wearable devices to monitor sleep, activity, and heart rate in high-risk women; Sub-study 2 will involve qualitative interviews; and Sub-study 3 will assess breastmilk composition and volume.

Planned analyses: our primary aim is to document linkages between heat exposure and inflammatory pathways that precede preterm birth. The hypothesis that heat exposure triggers maternal inflammation will be tested by analysing epigenetic changes associated with inflammatory cytokine protein and gene expression. We will investigate thermoregulation and hydration during labour. Using isotope techniques, we assess whether heat exposure alters breastmilk composition and volume. Conceptual frameworks and graphical causal models will be developed to delineate pathways of vulnerability and protective mechanisms.
Biological markers, South Africa, Breastfeeding, Epigenetics, Hot Temperature, Infant health, Inflammation, Maternal health, Pregnancy, Premature birth
2398-502X
Solarin, Ijeoma
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Lakhoo, Darshnika Pemi
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Alpine, Kimberly Mc
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Brennan, Margaret M.
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Chikandiwa, Admire
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Brink, Nicholas B.
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Radebe, Lebohang
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Landsberg, Marié
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Gray, Clive
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Hofmeyr, G. Justus
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Chang, Howard
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Hetem, Robyn
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Makhanya, Sibusisiwe
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Mpangase, Phelelani T.
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Norris, Shane
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Urban, Michael
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Vannevel, Valerie
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Wise, Amy
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Chersich, Matthew F.
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Technau, Karl-Gunter
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Strehlau, Renate
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et al.
Solarin, Ijeoma
b5646224-23b1-4ce3-9196-11a9b3e019d0
Lakhoo, Darshnika Pemi
72ffff89-69c2-433c-9a34-dab699794773
Alpine, Kimberly Mc
ba89f860-47d1-466d-bfa8-76c3f353cb04
Brennan, Margaret M.
3fbd7462-9f81-4f39-a5ea-ac082ea031e3
Chikandiwa, Admire
985c02a3-0cab-484c-b418-16c17b93e35b
Brink, Nicholas B.
d01d557d-0c1d-4843-8656-e3a6f08483d6
Radebe, Lebohang
757d7fe7-50a8-49e9-b000-47963618a0d7
Landsberg, Marié
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Gray, Clive
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Hofmeyr, G. Justus
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Chang, Howard
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Hetem, Robyn
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Makhanya, Sibusisiwe
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Mpangase, Phelelani T.
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Norris, Shane
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Urban, Michael
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Vannevel, Valerie
2917a94d-d532-482e-9ab9-579201360c6c
Wise, Amy
b8f31146-390a-4018-b3d5-d6ec9de28f36
Chersich, Matthew F.
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Technau, Karl-Gunter
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Strehlau, Renate
ec286d43-961a-4b4b-b17b-a427dcd42e59

et al. (2025) Study protocol for the Bio-HEAT study: investigating the biological pathways from HEAT exposure to preterm birth and other adverse maternal and child health outcomes in South Africa. Wellcome Open Research, 10. (doi:10.12688/wellcomeopenres.23616.2).

Record type: Article

Abstract

Abstract: introduction: Epidemiological evidence linking heat exposure to adverse maternal and child health outcomes is compelling. However, the biological and social mechanisms underlying these associations remain poorly understood. Understanding the pathways explaining these associations is important given rising global temperatures, and the urgent need for developing and testing adaptive interventions.

Methods: this transdisciplinary study in Johannesburg, South Africa, will monitor a cohort of 200 women from their second trimester until one-year postpartum, alongside their infants. Heat exposure and environmental factors will be tracked using personal, community and facility-level temperature monitors and geospatial data. Data will be collected on social conditions, medical and obstetric history, heat stress and adaptation, hydration, mental wellbeing, and sleep quality. Clinical data includes physical measurements, ultrasound, cardiotocography, and biological specimens (blood, urine, saliva) analysed for inflammatory markers, RNA, metabolic indicators, renal function and hormonal levels. Placental and cord blood analyses will assess foetal stress. Infant data will include medical history, hospital visits, neurodevelopment, anthropometric measurements, vital signs, and urine analysis. Three nested sub-studies (20-50 participants) will explore specific aspects: Sub-study 1 will use wearable devices to monitor sleep, activity, and heart rate in high-risk women; Sub-study 2 will involve qualitative interviews; and Sub-study 3 will assess breastmilk composition and volume.

Planned analyses: our primary aim is to document linkages between heat exposure and inflammatory pathways that precede preterm birth. The hypothesis that heat exposure triggers maternal inflammation will be tested by analysing epigenetic changes associated with inflammatory cytokine protein and gene expression. We will investigate thermoregulation and hydration during labour. Using isotope techniques, we assess whether heat exposure alters breastmilk composition and volume. Conceptual frameworks and graphical causal models will be developed to delineate pathways of vulnerability and protective mechanisms.

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Published date: 6 June 2025
Keywords: Biological markers, South Africa, Breastfeeding, Epigenetics, Hot Temperature, Infant health, Inflammation, Maternal health, Pregnancy, Premature birth
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Identifiers

Local EPrints ID: 504906
URI: http://eprints.soton.ac.uk/id/eprint/504906
DOI: doi:10.12688/wellcomeopenres.23616.2
ISSN: 2398-502X
PURE UUID: c99931b7-767c-4230-8c3d-a076a672a2c9
ORCID for Shane Norris: ORCID iD orcid.org/0000-0001-7124-3788

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Date deposited: 22 Sep 2025 16:41
Last modified: 23 Sep 2025 02:05

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Contributors

Author: Ijeoma Solarin
Author: Darshnika Pemi Lakhoo
Author: Kimberly Mc Alpine
Author: Margaret M. Brennan
Author: Admire Chikandiwa
Author: Nicholas B. Brink
Author: Lebohang Radebe
Author: Marié Landsberg
Author: Clive Gray
Author: G. Justus Hofmeyr
Author: Howard Chang
Author: Robyn Hetem
Author: Sibusisiwe Makhanya
Author: Phelelani T. Mpangase
Author: Shane Norris ORCID iD
Author: Michael Urban
Author: Valerie Vannevel
Author: Amy Wise
Author: Matthew F. Chersich
Author: Karl-Gunter Technau
Author: Renate Strehlau
Corporate Author: et al.

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