Residential proximity to industrial pollution and mammographic density

Tamara Jiménez; Marina Pollán; Alejandro Domínguez-Castillo; Pilar Lucas; María Ángeles Sierra; Nerea Fernández de Larrea-Baz; Mario González-Sánchez; Dolores Salas-Trejo; Rafael Llobet; Inmaculada Martínez; Marina Nieves Pino; Mercedes Martínez-Cortés; Beatriz Pérez-Gómez; Virginia Lope; Javier García-Pérez

doi:10.1016/j.scitotenv.2022.154578

Residential proximity to industrial pollution and mammographic density

Sci Total Environ. 2022 Jul 10:829:154578. doi: 10.1016/j.scitotenv.2022.154578. Epub 2022 Mar 15.

Authors

Tamara Jiménez¹, Marina Pollán², Alejandro Domínguez-Castillo³, Pilar Lucas⁴, María Ángeles Sierra⁵, Nerea Fernández de Larrea-Baz⁶, Mario González-Sánchez⁷, Dolores Salas-Trejo⁸, Rafael Llobet⁹, Inmaculada Martínez¹⁰, Marina Nieves Pino¹¹, Mercedes Martínez-Cortés¹², Beatriz Pérez-Gómez¹³, Virginia Lope¹⁴, Javier García-Pérez¹⁵

Affiliations

¹ Department of Preventive Medicine, Public Health and Microbiology, Universidad Autónoma de Madrid (UAM), Madrid, Spain.
² Cancer and Environmental Epidemiology Unit, Department of Epidemiology of Chronic Diseases, National Center for Epidemiology, Instituto de Salud Carlos III (Carlos III Institute of Health), Madrid, Spain; Consortium for Biomedical Research in Epidemiology & Public Health (CIBER en Epidemiología y Salud Pública - CIBERESP), Spain. Electronic address: mpollan@isciii.es.
³ Cancer and Environmental Epidemiology Unit, Department of Epidemiology of Chronic Diseases, National Center for Epidemiology, Instituto de Salud Carlos III (Carlos III Institute of Health), Madrid, Spain. Electronic address: a.dominguez@isciii.es.
⁴ Cancer and Environmental Epidemiology Unit, Department of Epidemiology of Chronic Diseases, National Center for Epidemiology, Instituto de Salud Carlos III (Carlos III Institute of Health), Madrid, Spain. Electronic address: pmlucas@isciii.es.
⁵ Cancer and Environmental Epidemiology Unit, Department of Epidemiology of Chronic Diseases, National Center for Epidemiology, Instituto de Salud Carlos III (Carlos III Institute of Health), Madrid, Spain; Consortium for Biomedical Research in Epidemiology & Public Health (CIBER en Epidemiología y Salud Pública - CIBERESP), Spain. Electronic address: masierra@isciii.es.
⁶ Cancer and Environmental Epidemiology Unit, Department of Epidemiology of Chronic Diseases, National Center for Epidemiology, Instituto de Salud Carlos III (Carlos III Institute of Health), Madrid, Spain; Consortium for Biomedical Research in Epidemiology & Public Health (CIBER en Epidemiología y Salud Pública - CIBERESP), Spain. Electronic address: nfernandez@isciii.es.
⁷ Cancer and Environmental Epidemiology Unit, Department of Epidemiology of Chronic Diseases, National Center for Epidemiology, Instituto de Salud Carlos III (Carlos III Institute of Health), Madrid, Spain; Consortium for Biomedical Research in Epidemiology & Public Health (CIBER en Epidemiología y Salud Pública - CIBERESP), Spain. Electronic address: mariogonzalez@isciii.es.
⁸ Consortium for Biomedical Research in Epidemiology & Public Health (CIBER en Epidemiología y Salud Pública - CIBERESP), Spain; Valencian Breast Cancer Screening Program, General Directorate of Public Health, Valencia, Spain; Center for Public Health Research CSISP, FISABIO, Valencia, Spain. Electronic address: salas_dol@gva.es.
⁹ Institute of Computer Technology, Universitat Politècnica de València, Valencia, Spain. Electronic address: rllobet@dsic.upv.es.
¹⁰ Valencian Breast Cancer Screening Program, General Directorate of Public Health, Valencia, Spain; Center for Public Health Research CSISP, FISABIO, Valencia, Spain. Electronic address: martinez_inm@gva.es.
¹¹ Servicio de Prevención y Promoción de la Salud, Madrid Salud, Ayuntamiento de Madrid, Madrid, Spain. Electronic address: pinoemn@madrid.es.
¹² Servicio de Prevención y Promoción de la Salud, Madrid Salud, Ayuntamiento de Madrid, Madrid, Spain. Electronic address: martinezcme@madrid.es.
¹³ Consortium for Biomedical Research in Epidemiology & Public Health (CIBER en Epidemiología y Salud Pública - CIBERESP), Spain; Department of Epidemiology of Chronic Diseases, National Center for Epidemiology, Instituto de Salud Carlos III (Carlos III Institute of Health), Madrid, Spain. Electronic address: bperez@isciii.es.
¹⁴ Cancer and Environmental Epidemiology Unit, Department of Epidemiology of Chronic Diseases, National Center for Epidemiology, Instituto de Salud Carlos III (Carlos III Institute of Health), Madrid, Spain; Consortium for Biomedical Research in Epidemiology & Public Health (CIBER en Epidemiología y Salud Pública - CIBERESP), Spain. Electronic address: vicarvajal@isciii.es.
¹⁵ Cancer and Environmental Epidemiology Unit, Department of Epidemiology of Chronic Diseases, National Center for Epidemiology, Instituto de Salud Carlos III (Carlos III Institute of Health), Madrid, Spain; Consortium for Biomedical Research in Epidemiology & Public Health (CIBER en Epidemiología y Salud Pública - CIBERESP), Spain. Electronic address: jgarcia@isciii.es.

PMID: 35304152
DOI: 10.1016/j.scitotenv.2022.154578

Abstract

Background: Mammographic density (MD), expressed as percentage of fibroglandular breast tissue, is an important risk factor for breast cancer. Our objective is to investigate the relationship between MD and residential proximity to pollutant industries in premenopausal Spanish women.

Methods: A cross-sectional study was carried out in a sample of 1225 women extracted from the DDM-Madrid study. Multiple linear regression models were used to assess the association of MD percentage (and their 95% confidence intervals (95%CIs)) and proximity (between 1 km and 3 km) to industries included in the European Pollutant Release and Transfer Register.

Results: Although no association was found between MD and distance to all industries as a whole, several industrial sectors showed significant association for some distances: "surface treatment of metals and plastic" (β = 4.98, 95%CI = (0.85; 9.12) at ≤1.5 km, and β = 3.00, 95%CI = (0.26; 5.73) at ≤2.5 km), "organic chemical industry" (β = 6.73, 95%CI = (0.50; 12.97) at ≤1.5 km), "pharmaceutical products" (β = 4.14, 95%CI = (0.58; 7.70) at ≤2 km; β = 3.55, 95%CI = (0.49; 6.60) at ≤2.5 km; and β = 3.11, 95%CI = (0.20; 6.01) at ≤3 km), and "urban waste-water treatment plants" (β = 8.06, 95%CI = (0.82; 15.30) at ≤1 km; β = 5.28; 95%CI = (0.49; 10.06) at ≤1.5 km; β = 4.30, 95%CI = (0.03; 8.57) at ≤2 km; β = 5.26, 95%CI = (1.83; 8.68) at ≤2.5 km; and β = 3.19, 95%CI = (0.46; 5.92) at ≤3 km). Moreover, significant increased MD was observed in women close to industries releasing specific pollutants: ammonia (β = 4.55, 95%CI = (0.26; 8.83) at ≤1.5 km; and β = 3.81, 95%CI = (0.49; 7.14) at ≤2 km), dichloromethane (β = 3.86, 95%CI = (0.00; 7.71) at ≤2 km), ethylbenzene (β = 8.96, 95%CI = (0.57; 17.35) at ≤3 km), and phenols (β = 2.60, 95%CI = (0.21; 5.00) at ≤2.5 km).

Conclusions: Our results suggest no statistically significant relationship between MD and proximity to industries as a whole, although we detected associations with various industrial sectors and some specific pollutants, which suggests that MD could have a mediating role in breast carcinogenesis.

Keywords: Breast cancer; Breast density; DDM-Madrid; Industries; Pollutants; Residential proximity.

MeSH terms

Breast Density
Breast Neoplasms* / diagnostic imaging
Breast Neoplasms* / epidemiology
Case-Control Studies
Cross-Sectional Studies
Environmental Pollutants*
Environmental Pollution
Female
Humans
Risk Factors

Substances

Environmental Pollutants