TY - JOUR
T1 - Socioeconomic position during pregnancy and pre-school exposome in children from eight European birth cohort studies
AU - Pizzi, Costanza
AU - Moirano, Giovenale
AU - Moccia, Chiara
AU - Maule, Milena
AU - D'Errico, Antonio
AU - Vrijheid, Martine
AU - Cadman, Timothy J
AU - Fossati, Serena
AU - Nieuwenhuijsen, Mark
AU - Beneito, Andrea
AU - Calas, Lucinda
AU - Duijts, Liesbeth
AU - Elhakeem, Ahmed
AU - Harris, Jennifer R
AU - Heude, Barbara
AU - Jaddoe, Vincent
AU - Lawlor, Deborah A
AU - Lioret, Sandrine
AU - McEachan, Rosemary Rc
AU - Nader, Johanna L
AU - Pedersen, Marie
AU - Pinot de Moira, Angela
AU - Strandberg-Larsen, Katrine
AU - Subiza-Pérez, Mikel
AU - Vafeiadi, Marina
AU - Welten, Marieke
AU - Wright, John
AU - Yang, Tiffany C
AU - Richiardi, Lorenzo
N1 - Publisher Copyright:
© 2024 The Author(s)
PY - 2024/10/1
Y1 - 2024/10/1
N2 - Distribution of environmental hazards and vulnerability to their effects vary across socioeconomic groups. Our objective was to analyse the relationship between child socioeconomic position (SEP) at birth and the external exposome at pre-school age (0-4 years). This study included more than 60,000 children from eight cohorts in eleven European cities (Oslo, Copenhagen, Bristol, Bradford, Rotterdam, Nancy, Poitiers, Gipuzkoa, Sabadell, Valencia and Turin). SEP was measured through maternal education and a standardised indicator of household income. Three child exposome domains were investigated: behavioral, diet and urban environment. We fitted separate logistic regression model for each exposome variable - dichotomised using the city-specific median - on SEP (medium/low vs high) adjusting for maternal age, country of birth and parity. Analyses were carried out separately in each study-area. Low-SEP children had, consistently across study-areas, lower Odds Ratios (ORs) of breastfeeding, consumption of eggs, fish, fruit, vegetables and higher ORs of TV screen time, pet ownership, exposure to second-hand smoke, consumption of dairy, potatoes, sweet beverages, savory biscuits and crisps, fats and carbohydrates. For example, maternal education-breastfeeding OR (95% Confidence Interval (CI)) ranged from 0.18 (0.14-0.24) in Bristol to 0.73 (0.58-0.90) in Oslo. SEP was also strongly associated with the urban environment with marked between-city heterogeneity. For example, income-PM2.5 OR (95%CI) ranged from 0.69 (0.47-1.02) in Sabadell to 2.44 (2.16-2.72) in Oslo. Already at pre-school age, children with lower SEP have consistently poorer diets and behaviours, which might influence their future health and wellbeing. SEP-urban environment relationships are strongly context-dependent.
AB - Distribution of environmental hazards and vulnerability to their effects vary across socioeconomic groups. Our objective was to analyse the relationship between child socioeconomic position (SEP) at birth and the external exposome at pre-school age (0-4 years). This study included more than 60,000 children from eight cohorts in eleven European cities (Oslo, Copenhagen, Bristol, Bradford, Rotterdam, Nancy, Poitiers, Gipuzkoa, Sabadell, Valencia and Turin). SEP was measured through maternal education and a standardised indicator of household income. Three child exposome domains were investigated: behavioral, diet and urban environment. We fitted separate logistic regression model for each exposome variable - dichotomised using the city-specific median - on SEP (medium/low vs high) adjusting for maternal age, country of birth and parity. Analyses were carried out separately in each study-area. Low-SEP children had, consistently across study-areas, lower Odds Ratios (ORs) of breastfeeding, consumption of eggs, fish, fruit, vegetables and higher ORs of TV screen time, pet ownership, exposure to second-hand smoke, consumption of dairy, potatoes, sweet beverages, savory biscuits and crisps, fats and carbohydrates. For example, maternal education-breastfeeding OR (95% Confidence Interval (CI)) ranged from 0.18 (0.14-0.24) in Bristol to 0.73 (0.58-0.90) in Oslo. SEP was also strongly associated with the urban environment with marked between-city heterogeneity. For example, income-PM2.5 OR (95%CI) ranged from 0.69 (0.47-1.02) in Sabadell to 2.44 (2.16-2.72) in Oslo. Already at pre-school age, children with lower SEP have consistently poorer diets and behaviours, which might influence their future health and wellbeing. SEP-urban environment relationships are strongly context-dependent.
U2 - 10.1016/j.socscimed.2024.117275
DO - 10.1016/j.socscimed.2024.117275
M3 - Article (Academic Journal)
C2 - 39236481
SN - 0277-9536
VL - 359
SP - 117275
JO - Social Science and Medicine
JF - Social Science and Medicine
M1 - 117275
ER -