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Association of environmental factors with breast cancer incidence among African American women in Memphis, Tennessee.

Batbaatar et al,

2025

Int J Environ Health Res

Neighborhood| Race/Ethnicity| Human| Carcinogenic| Epidemiological Studies| Human Studies| Race/Ethnicity| |

In this case-control study of African American women in Memphis, 355 participants aged 20–88 were enrolled, and the final analysis included 50 breast cancer cases and 157 controls whose home addresses were linked to detailed environmental and socioeconomic data. Using logistic regression, the researchers found that women living closer to heavy traffic had higher odds of breast cancer (OR 1.64, 95% CI: 1.05–2.56), and those living nearer to Superfund hazardous waste sites had markedly higher odds (OR 12.26, 95% CI: 1.81–82.86) compared with women living farther away. Spatial mapping showed that cases clustered in Southwest Memphis, an area with higher environmental burden and disadvantage. These findings suggest that environmental inequities in the built and industrial environment may substantially contribute to breast cancer disparities among African American women in this region.

Neighborhood Environment, DNA Methylation, and Presence of Crown-Like Structures of the Breast.

Harris et al,

2025

JAMA Netw Open

Air Pollution| Air| Human| Air Pollution| Epidemiological Studies| Hazardous Air Pollution| Human Studies| |

In a cross-sectional study involving Black and White women participating in the NCI Maryland Breast Cancer Study, the investigators examined associations between neighborhood-level deprivation, air pollution (PM₂.₅) and presence of breast tissue crown-like structures (CLS-B) plus DNA methylation patterns. Higher PM₂.₅ exposure and greater neighborhood deprivation were associated with increased odds of having CLS-B (OR for PM₂.₅ 2.32, 95% CI: 1.12–4.78). The findings point to how socio-environmental disadvantage and pollution may influence breast adipose inflammation and epigenetic changes linked to cancer risk.

The impacts of Noise and air pollution on breast cancer risk in European and East Asian populations: Insights from genetic evidence.

Yu et al,

2025

Public Health

Air Pollution| Air| Human| Air Pollution| Epidemiological Studies| Hazardous Air Pollution| Human Studies| Mechanistic Studies| Noise|

In this Mendelian-randomization study of European and East Asian populations, genetic variants linked to daytime/evening Noise and air pollutants (NO₂, NOₓ, PM₂.₅, PM₁₀) were used to assess breast cancer risk. In the European cohort, genetically predicted NO₂ exposure had an OR of 1.94 (95% CI: 1.29–2.92) and PM₁₀ had an OR of 1.42 (95% CI: 1.09–1.85) for breast cancer; in East Asian populations, NO₂ exposure showed OR = 1.14 (95% CI: 1.008–1.287). The findings suggest that both traffic-related air pollutants and Noise may causally contribute to breast cancer risk.

Understanding the role of environmental and socioeconomic factors in the geographic variation of breast cancer risk in the US-wide Sister Study.

Carroll et al,

2023

Environ Res

Air Pollution| Light at night| Neighborhood| Noise| Radiation| VOCs| Human| Light at Night| Nitrogen Dioxide| Particulate Matter| Epidemiological Studies| Human Studies| Light at Night| |

A nationwide U.S. study of nearly 45,000 women found clear geographic patterns in breast cancer rates, with lower risk in the South and Southeast and higher risk in the Northwest and parts of the Midwest and Northeast, even after accounting for personal risk factors like family history and reproductive factors. Environmental exposures—including air pollution (nitrogen dioxide and fine particles), light at night, greenspace, and neighborhood socioeconomic disadvantage—explained 21% of the geographic variation in overall breast cancer and 63% of the variation specifically for estrogen receptor-positive (ER+) breast cancer. These findings provide strong evidence that where you live matters for breast cancer risk, with environmental factors playing a substantial role, particularly for ER+ breast cancer, the most common subtype, suggesting that reducing environmental exposures like air pollution and light at night could be effective prevention strategies at the community level.

Urban Neighborhood and Residential Factors Associated with Breast Cancer in African American Women: a Systematic Review.

Smith et al,

2018

Discov Oncol

Air Pollution| Neighborhood| VOCs| Human| Endocrine/Reproductive Toxin| Particulate Matter| Chemical Mixtures| Place-Based| Race/Ethnicity| Review| |

This systematic review examined the relation of 4 neighborhood factors on breast cancer incidence and prognosis among African-American women: neighborhood socioeconomic status (nSES), residential segregation, spatial access to mammography, and residential pollution. The authors found that nSES, residential segregation and access to mammography were all related to stage at diagnosis, and nSES and living in more segregated areas were both associated with mortality. Residential pollution was not associated with increased risk of breast cancer in the studies reviewed.

Heavy-metal associated breast cancer and colorectal cancer hot spots and their demographic and socioeconomic characteristics.

Tomlinson et al,

2024

Cancer Causes Control

Metals| Neighborhood| Race/Ethnicity| Air| Metals| Human| Metals| Epidemiological Studies| Human Studies| Metals| Place-Based| |

A population-based study using Kentucky cancer registry data (77,637 breast cancer and 56,598 colorectal cancer cases) found that higher ambient air concentrations of carcinogenic metals—cadmium, arsenic, nickel, and chromium(VI)—were associated with increased odds of residing in breast and colorectal cancer hotspots, independent of individual risk factors including age, race, smoking, and neighborhood socioeconomic characteristics. Cancer hotspot populations were disproportionately Black and exhibited markers of lower socioeconomic status, and importantly, the metal-cancer associations persisted even after adjusting for these factors, suggesting environmental metal exposure is an independent contributor to geographic cancer clustering. These findings provide evidence that historically marginalized communities face disproportionate exposure to carcinogenic metals through environmental pollution, likely contributing to cancer disparities, and underscore the urgent need for environmental justice interventions including stricter air quality regulations, cleanup of contaminated sites, and individual-level exposure assessments to fully understand how metal exposures drive cancer inequities in vulnerable populations.

Association of Social Determinants and Tumor Biology With Racial Disparity in Survival From Early-Stage, Hormone-Dependent Breast Cancer.

Hoskins et al,

2023

JAMA Oncol

Neighborhood| Race/Ethnicity| | Human| Epidemiological Studies| Human Studies| Mechanistic Studies| Race/Ethnicity| |

A retrospective analysis of 60,137 women with early-stage, ER-positive, node-negative breast cancer found that Black women had an 82% increased risk of breast cancer death compared to White women, with social determinants of health (neighborhood disadvantage and insurance status) mediating 19% of this disparity and tumor biological characteristics (including genomic recurrence scores) mediating 20%. When all factors were combined in a fully adjusted model, 44% of the racial survival disparity was explained, suggesting that social determinants and aggressive tumor biology contribute roughly equally to worse outcomes in Black women, though over half of the disparity remains unexplained. Notably, neighborhood disadvantage itself mediated 8% of racial differences in high-risk recurrence scores, indicating that social factors may influence tumor biology, and highlighting that addressing breast cancer disparities requires dual approaches targeting both structural barriers to healthcare access and quality while investigating the biological mechanisms—including ancestry-related genetic variants and molecular pathways—that may drive more aggressive disease in Black women.

The impact of social and environmental factors on cancer biology in Black Americans.

Lord et al,

2023

Cancer Causes Control

Inflammation| Neighborhood| Race/Ethnicity| Stress| | Human| Stress| Epigenome| Inflammation| Mechanistic Studies| Place-Based| Race/Ethnicity| Review| |

A review examining how low socioeconomic status (SES) contributes to early chronic disease onset and reduced life expectancy found that neighborhood-level factors—including environmental pollutants, deprivation, social isolation, structural racism, and discrimination—create chronic life stress that affects molecular processes like DNA methylation, inflammation, and immune response, contributing to more aggressive tumor biology, particularly in Black Americans. Despite decades of research showing associations between neighborhood factors and cancer outcomes in marginalized communities, the biological mechanisms linking SES to cancer disparities remain poorly understood, though emerging evidence suggests chronic stress pathways may play a central role. The authors summarize current methods for measuring neighborhood-level deprivation, discrimination, and structural racism in cancer disparities research and recommend adopting a multi-faceted intersectional approach to reduce cancer health inequities and develop effective interventions promoting health equity.

Redlining-associated methylation in breast tumors: the impact of contemporary structural racism on the tumor epigenome.

Miller-Kleinhenz et al,

2023

Front Oncol

Neighborhood| Race/Ethnicity| | Human| Epigenetic| Epigenome| Mechanistic Studies| |

A study of 80 Black and White women with breast cancer at Emory University Hospitals (2008-2017) examined associations between contemporary neighborhood redlining—a structural racism measure derived from Home Mortgage Disclosure Act data—and DNA methylation patterns in breast tumor tissue. Contemporary redlining was significantly associated with aberrant methylation at 5 CpG sites (FDR<0.10) in genes implicated in breast carcinogenesis, inflammation, immune function, and stress response (ANGPT1, PRG4), with additional top sites showing interaction by ER status and association with mortality; redlining was also associated with epigenetic age acceleration (β=5.35; 95% CI: 0.30-10.4 by Hannum metric). These novel findings suggest that structural racism—manifested through discriminatory housing policies leading to inequitable social and environmental exposures—may biologically embed in the breast tumor epigenome through altered DNA methylation patterns, potentially contributing to documented racial disparities in breast cancer outcomes and highlighting the need for further research on epigenetic mechanisms linking neighborhood-level structural racism to cancer prognosis.

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