Association of urban environments with Atherosclerotic cardiovascular disease: A prospective cohort study in the UK Biobank

• Published in: Environment international Vol. 193; p. 109110
• Main Authors: Huang, Xuewei, Wang, Zhouyi, Lei, Fang, Liu, Weifang, Lin, Lijin, Sun, Tao, Cao, Yuanyuan, Zhang, Xingyuan, Cai, Jingjing, Li, Hongliang
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier Ltd 01.11.2024; Elsevier
• Subjects: Adult; Aged; air pollution; Atherosclerosis - epidemiology; Atherosclerotic cardiovascular disease; Biological Specimen Banks; cardiovascular diseases; Cardiovascular Diseases - epidemiology; City; cohort studies; Coronary heart disease; environment; Environmental Exposure - statistics & numerical data; Exposome; Female; genetic predisposition to disease; hardness; Humans; infrastructure; land use; Male; mental health; Middle Aged; multivariate analysis; Prospective Studies; public health; risk; Risk Factors; socioeconomic status; Stroke; UK Biobank; United Kingdom; urban areas; Urban environment; water hardness; United Kingdom; Stroke; Urban environment; City; Exposome; Atherosclerotic cardiovascular disease; Coronary heart disease
• ISSN: 0160-4120; 1873-6750; 1873-6750
• DOI: 10.1016/j.envint.2024.109110

[Display omitted] •Urban environments-ASCVD links were assessed using the exposome approach.•A wide range of urban environmental exposures was associated with ASCVD risk.•Urban environments affect ASCVD risk through different modifiable factors.•Socioeconomic factors, not genetics, amplify adverse environmental effects on ASCVD. Urban environments and cardiovascular health are closely linked, yet only a few specific exposures have been explored in isolation and mostly adopting cross-sectional design. The influence of socioeconomic status and genetic predisposition also remains unclear. Hence, leveraging the UK Biobank data (n = 206,681), we conducted a prospective analysis of 213 urban environmental variables and their association with atherosclerotic cardiovascular disease (ASCVD). The ExWAS and regularized Cox models analyses highlighted air pollution, industrial sites, and complex street networks as primary environmental risk factors. Instead, land-use density of leisure, public services, infrastructure and residential, and drinking water hardness showed a negative association with ASCVD risk. By integrating sparse canonical correlation and mediation analyses, we found distinct urban environment patterns through diverse pathways influence ASCVD. The environment characterized by pollution and complex streets impact ASCVD through adverse mental health (mediation proportion:30.7 %, 95 % CI:22.4 %-44.0 %), while highly-developed community and high-water hardness environment via cardiometabolic status (22.6 %, 95 % CI:19.7 %-26.0 %). Further, we found low socioeconomic status amplifies disadvantaged urban environment effects on ASCVD, yet there were no similar findings for ASCVD genetic predisposition. This research deepened our understanding of city-cardiovascular health links and the role of socioeconomic status, with implications for urban planning and public health interventions.