Spatial clusters of cancer incidence: analyzing 1940 census data linked to 1966–2017 cancer records

Menée aux Etats-Unis à partir de 1940 auprès de 260 585 personnes âgées de moins de 40 ans (durée moyenne de suivi : 50,9 ans), cette étude analyse les excès d'incidence de 26 cancers selon la localisation géographique de résidence durant la petite enfance (66 904 cas)

Résumé en anglais

Purpose: A life course perspective to cancer incidence is important for understanding effects of the environment during early life on later cancer risk. We assessed spatial clusters of cancer incidence based on early life location defined as 1940 US Census Enumeration District (ED).

Methods: A cohort of 260,585 individuals aged 0–40 years in 1940 was selected. Individuals were followed from 1940 to cancer diagnosis, death, or last residence in Utah. We geocoded ED centroids in Utah for the 1940 Census. Spatial scan statistics with purely spatial elliptic scanning window were used to identify spatial clusters of EDs with excess cancer rates across 26 cancer types, assuming a discrete Poisson model.

Results: Cancer was diagnosed in 66,904 (25.67%) individuals during follow-up across 892 EDs. Average follow-up was 50.9 years. We detected 15 clusters of excess risk for bladder, breast, cervix, colon, lung, melanoma, oral, ovary, prostate, and soft tissue cancers. An urban area had dense overlap of multiple cancer types, including two EDs at increased risk for five cancer types each.

Conclusions: Early environments may contribute to cancer risk later in life. Life course perspectives applied to the study of cancer incidence can provide insights for increasing understanding of cancer etiology.