Modelling socioeconomic position as a driver of the exposome in the first 18 months of life of the NINFEA birth cohort children

• Published in: Environment international Vol. 173; pp. 107864 - 13
• Main Authors: Moccia, Chiara, Pizzi, Costanza, Moirano, Giovenale, Popovic, Maja, Zugna, Daniela, d'Errico, Antonio, Isaevska, Elena, Fossati, Serena, Nieuwenhuijsen, Mark J., Fariselli, Piero, Sanavia, Tiziana, Richiardi, Lorenzo, Maule, Milena
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier Ltd 01.03.2023; Elsevier
• Subjects: Air Pollution; Birth Cohort; Child; child care; childbirth; cluster analysis; diet; environment; Environmental epidemiology; Environmental Exposure - analysis; EU-SILC 2011; Exposome; fruits; Health inequalities; household income; Humans; humidity; Italy; Kindheit; Life course epidemiology; lifestyle; pet ownership; principal component analysis; Socioeconomic Factors; Socioeconomic position; socioeconomic status; sugars; traffic; urbanization; Italy; Environmental epidemiology; Exposome; Life course epidemiology; Socioeconomic position; Health inequalities
• ISSN: 0160-4120; 1873-6750; 1873-6750
• DOI: 10.1016/j.envint.2023.107864

The exposome drivers are less studied than its consequences but may be crucial in identifying population subgroups with unfavourable exposures. We used three approaches to study the socioeconomic position (SEP) as a driver of the early-life exposome in Turin children of the NINFEA cohort (Italy). Forty-two environmental exposures, collected at 18 months of age (N = 1989), were classified in 5 groups (lifestyle, diet, meteoclimatic, traffic-related, built environment). We performed cluster analysis to identify subjects sharing similar exposures, and intra-exposome-group Principal Component Analysis (PCA) to reduce the dimensionality. SEP at childbirth was measured through the Equivalised Household Income Indicator. SEP-exposome association was evaluated using: 1) an Exposome Wide Association Study (ExWAS), a one-exposure (SEP) one-outcome (exposome) approach; 2) multinomial regression of cluster membership on SEP; 3) regressions of each intra-exposome-group PC on SEP. In the ExWAS, medium/low SEP children were more exposed to greenness, pet ownership, passive smoking, TV screen and sugar; less exposed to NO2, NOX, PM25abs, humidity, built environment, traffic load, unhealthy food facilities, fruit, vegetables, eggs, grain products, and childcare than high SEP children. Medium/low SEP children were more likely to belong to a cluster with poor diet, less air pollution, and to live in the suburbs than high SEP children. Medium/low SEP children were more exposed to lifestyle PC1 (unhealthy lifestyle) and diet PC2 (unhealthy diet), and less exposed to PC1s of the built environment (urbanization factors), diet (mixed diet), and traffic (air pollution) than high SEP children. The three approaches provided consistent and complementary results, suggesting that children with lower SEP are less exposed to urbanization factors and more exposed to unhealthy lifestyles and diet. The simplest method, the ExWAS, conveys most of the information and is more replicable in other populations. Clustering and PCA may facilitate results interpretation and communication.