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2025
J Occup Environ Med
A French case-control study of 1,230 breast cancer patients and 1,315 controls examined occupational exposure to 49 common workplace chemicals and found elevated breast cancer risk associated with 12 agents. Women with the highest cumulative exposure showed increased risk ranging from 33% to 139% for chemicals including synthetic and natural fibers, plastics, organic dyes, nitrogen oxides, anesthetic gases, and various industrial compounds. The associations were generally stronger in premenopausal women compared to postmenopausal women. These findings suggest certain occupational exposures may play a role in breast cancer development, though larger studies with more detailed exposure assessments are needed to confirm these results.
2023
Environ Res
This case-control study of 5587 women with breast cancer and age-matched controls for which there was data on maternal employment. Maternal occupational exposure to diesel exhaust (OR=1.13, 95%CI,1.01-1.27) and bitumen fumes (OR=1.51., 95%CI,1.00-2.26) was associated with breast cancer. Further, exposures to diesel exhaust (OR=1.23, 95%CI, 1.01-1.50) were more strongly associated with ER- tumors than with ER+ tumors.
2023
Asian Pac J Cancer Prev
A study of 360 participants found that agricultural workers exposed to pesticides who carry genetic variations that impair their body’s ability to detoxify chemicals (null mutations in GSTT1 and GSTM1 genes) had substantially increased cancer risk, with 4-7 times higher odds of developing lymphoma or breast cancer compared to those with normal detoxification genes. The study also found elevated markers of oxidative stress (cellular damage) in farm workers with these genetic variants who developed leukemia, suggesting that pesticide exposure combined with impaired detoxification capacity triggers cancer development. These findings indicate that certain genetic profiles make agricultural workers particularly vulnerable to pesticide-related cancers, highlighting the importance of protective measures for farm workers and potential genetic screening to identify high-risk individuals.
Association between Urinary Lead and Female Breast Cancer: A Population-Based Cross-Sectional Study.
2023
Discov Med
This study analyzed data from nearly 2,800 women in the National Health and Nutrition Examination Survey (NHANES) to investigate whether urinary lead levels are associated with breast cancer risk. Researchers found that higher urinary lead levels were positively associated with breast cancer, with women having the highest lead levels showing 2.16 times the odds of breast cancer compared to those with the lowest levels, and this association persisted after adjusting for numerous factors including age, BMI, smoking, and socioeconomic status. The positive trend was consistent across different subgroups of women regardless of age, race, pregnancy history, or other health conditions. These findings suggest that lead exposure, as measured in urine, may be a risk factor for breast cancer in US women.
2022
Environ Sci Poll Res
This meta-analysis of 24 studies found that women occupationally exposed to organic solvents (chemicals used in manufacturing, cleaning, and industrial processes) had an 18% increased risk of breast cancer compared to unexposed workers, with the association being particularly strong in postmenopausal women (35% increased risk) and European workers. Organic solvents are commonly found in workplaces involving paint, adhesives, dry cleaning, and manufacturing, and the increased risk was consistent across both large cohort studies and case-control studies. These findings suggest that workplace exposure to organic solvents is an important and preventable occupational health hazard that contributes to breast cancer risk, especially for women working in industries that regularly use these chemicals.
2022
Environ Res
A study of 6,247 greenspace workers (landscapers, gardeners, groundskeepers) from the French AGRICAN cohort found significantly elevated cancer risks compared to farmers and non-agricultural workers. Male greenspace workers showed 15% higher overall cancer incidence, with particularly elevated risks for prostate cancer (21% increase), thyroid cancer (184% increase), testicular cancer (298% increase), and skin melanoma (115% increase), while female greenspace workers had a 71% increased risk of breast cancer. The study also found that greenspace workers reported more allergic diseases and, among males, more depression compared to other occupational groups. These findings highlight that greenspace workers face distinct occupational health risks, likely related to pesticide exposure and other workplace hazards, and should be studied separately from agricultural workers rather than being grouped together in research.
2021
Cancer Epidemiol Biomarkers Prev
A Spanish case-control study of 1,738 breast cancer cases and 1,910 controls found that occupational heat exposure was associated with a 22% increased risk of breast cancer among women who had ever been exposed. The study found significant dose-response relationships, with risk increasing with both cumulative heat exposure and duration of exposure, and particularly strong associations for hormone receptor-positive breast cancer (38% increased risk). The associations were strongest when not adjusted for detergent exposure, suggesting potential confounding or interaction between these workplace exposures. These findings suggest that chronic workplace heat stress may be a previously underrecognized occupational risk factor for breast cancer, though further research is needed to confirm these results and understand potential interactions with other workplace exposures.
2021
Scand J Work Environ Health
This large Danish study of over 38,000 women with breast cancer found that occupational exposure to diesel exhaust was associated with a modestly increased risk of estrogen receptor-negative breast tumors in women under age 50, with the risk increasing with longer duration and higher levels of exposure. No significant associations were found for overall breast cancer risk or for exposure to polycyclic aromatic hydrocarbons (PAHs). These findings suggest that workplace diesel exhaust exposure may be particularly relevant for early-onset, harder-to-treat forms of breast cancer, highlighting the importance of protecting workers from diesel fumes.
2020
Int Arch Occup Environ Health
This Swedish study of 2,400 postmenopausal women found that those exposed to chemicals in the workplace had a 59% increased risk of breast cancer, with the risk increasing with longer duration of exposure. Women exposed to chlorinated hydrocarbon solvents or oil mist for more than 10 years had approximately triple the breast cancer risk compared to unexposed women. The study used individualized exposure assessments based on specific work tasks rather than just job titles, providing stronger evidence that workplace chemical exposures—particularly to organic solvents and oil mist commonly found in manufacturing and industrial settings—may be important contributors to breast cancer risk.
2019
Occ Environ Med
This Canadian study of over 2,200 women found that occupational exposure to polycyclic aromatic hydrocarbons (PAHs)—chemicals released from burning materials like coal, oil, and gasoline—increased breast cancer risk by 32%, with higher risks seen in women exposed to high levels for more than 7 years. The association was particularly strong among women with a family history of breast cancer, where prolonged high exposure nearly tripled the risk. These findings suggest that workplace PAH exposure may be an important and preventable breast cancer risk factor, especially for women with genetic susceptibility to the disease.
2019
J Work Environ Health
A prospective study of 16,084 Swedish women found that occupational exposure to chemicals was associated with a 26% increased risk of postmenopausal breast cancer, with risk increasing based on duration of exposure. Women exposed to diesel exhaust for more than 10 years showed a 69% increased risk, while exposure to organic solvents showed a non-significant elevated risk. The researchers estimated that occupational chemical exposures accounted for 2% of all breast cancer cases in this population, highlighting workplace chemical exposure as a potentially important but often overlooked risk factor for breast cancer.
2018
Scand J Work Environ Health
A European multicenter case-control study of 104 male breast cancer cases and 1,901 controls found that high cumulative lifetime exposure to trichloroethylene (>23.9 ppm-years) was associated with a 110% increased male breast cancer risk compared to non-exposure, with the association persisting when only exposures occurring 10 or more years before diagnosis were considered, indicating a true latency effect. The study also suggested possible roles for benzene and ethylene glycol in male breast cancer risk, though no clear dose-response relationships were observed for these chemicals. These findings are particularly important given that male breast cancer is rare, often diagnosed at later stages, and has worse prognosis than female breast cancer, and they add to evidence that occupational solvent exposures—particularly trichloroethylene used in metal degreasing, dry cleaning, and industrial cleaning—may be underrecognized risk factors for breast cancer in both men and women, warranting stricter workplace exposure limits and enhanced surveillance of workers in high-exposure industries.
2018
Am J Epidemiol
A cohort study of 4,503 female autoworkers in Michigan exposed to metalworking fluids (MWFs)—oil and chemical mixtures used in metal manufacturing—found that increased exposure to straight mineral oil MWFs was associated with a 13% increased breast cancer risk per interquartile range increase in cumulative exposure. Among younger women who developed premenopausal breast cancer, exposure to synthetic MWFs (chemical lubricants without oil) showed elevated risk, suggesting potentially different carcinogenic mechanisms in younger versus older women. This occupational study addresses a critical gap in breast cancer research by providing quantitative exposure-response data for a specific chemical mixture affecting a large workforce, offering one of the few leads on modifiable environmental risk factors for breast cancer.
2000
Am J Indust Med
This Danish nationwide study of 230 male breast cancer cases found that men occupationally exposed to gasoline and its combustion products had a 2.5 times higher risk of breast cancer, with the risk rising to 5.4 times higher among men first exposed before age 40. Gasoline contains several known carcinogens including benzene and produces cancer-causing combustion products, which may explain this elevated risk. Since male breast cancer is rare but shares similar biology with female breast cancer, these findings suggest that gasoline exposure may also increase breast cancer risk in women and warrant further investigation in female workers.
2024
Int J Env Res Pub Health
This study surveyed 746 Kenyan women about their hair product use and found that nearly 60% had used chemical relaxers and one-third had used hair dyes, despite many expressing concerns about health risks including breast cancer. Older women and those working in sales and service industries were more likely to use these products, which may contain endocrine-disrupting chemicals linked to breast cancer. Surprisingly, women’s awareness of potential health risks did not consistently lead to reduced use of these products, suggesting that concern alone may not be enough to change behavior. These findings are particularly important for Kenya, where breast cancer rates are rising, and highlight the need for better education about chemical exposures in hair products and strategies to reduce potentially harmful exposures.
2023
Occup Environ Med
A prospective cohort study of 33,359 Finnish public sector workers followed until 2016 found that shift work—both with and without night shifts—was associated with approximately double the breast cancer risk among women aged 50 or older after 10 or more years of follow-up (101% and 105% increased risk, respectively). However, no overall association was found when examining the entire cohort regardless of age or duration, and when historical shift work exposure data were available in a subgroup, the association with longer exposure duration was not statistically significant. These findings suggest that the breast cancer risk from shift work may primarily affect older women with prolonged exposure, though the authors acknowledge that incomplete information on the intensity and patterns of night work exposure may have weakened the observed associations.
2023
Ann Agric Environ Med
A case-control study of 111 postmenopausal women with breast cancer and 111 controls found that shift work was associated with a 165% increased breast cancer risk, but this risk was dramatically amplified by body weight status. Overweight shift workers showed a staggering 884% increased breast cancer risk compared to normal-weight women who had never worked shifts, indicating a powerful synergistic effect between shift work and excess body weight. With 72% of breast cancer cases having a history of shift work compared to 49% of controls, these findings suggest that the combination of circadian disruption from shift work and metabolic dysfunction from excess weight creates a particularly high-risk scenario, highlighting the urgent need for targeted prevention strategies—including weight management and lifestyle interventions—specifically for women working non-standard hours.
2022
J Occup Environ Med
A systematic review and meta-analysis of 9 studies found that female flight attendants had a 43% increased breast cancer incidence compared to the general population, but surprisingly, neither cosmic radiation exposure nor circadian rhythm disruption—the two primary occupational hazards hypothesized to drive this excess risk—showed clear associations with breast cancer in the available studies. Three studies suggested a possible link with cosmic radiation while none found associations with circadian disruption, leaving the underlying cause of the elevated breast cancer risk among flight attendants unexplained. These findings highlight a critical gap in occupational health research: while flight attendants clearly face elevated breast cancer risk, the mechanisms remain unclear, potentially involving unmeasured factors such as reproductive patterns (delayed childbearing, fewer children), lifestyle factors associated with the profession, cumulative effects of multiple low-level exposures, or limitations in exposure assessment methods—underscoring the urgent need for studies with detailed individual-level data on occupational exposures, work schedules, and lifestyle factors to identify modifiable risk factors for this vulnerable workforce.
Risk of breast cancer in Danish women occupationally exposed to organic solvents, including ethanol.
2022
Am J Indust Med
A Danish nested case-control study of 845 breast cancer patients and 1,500 matched controls found that occupational exposure to organic solvents was associated with a 220% increased breast cancer risk among ever-exposed women compared to never-exposed women. The elevated risk was observed across all breast cancer subtypes—both estrogen receptor-positive and negative tumors—and in both pre- and postmenopausal women, though surprisingly, no dose-response relationship was detected with duration or cumulative exposure levels. Occupational ethanol exposure showed no association with breast cancer, suggesting that specific properties of other organic solvents may drive the carcinogenic effect, and highlighting the need for workplace protections and further research to identify which solvent types pose the greatest risk.
2022
Int J Env Res Public Health
A large population-based retrospective case-control study in Taiwan examined 103,047 female workers with breast cancer diagnosed between 2008-2017 and matched controls (1:4 ratio) using lifetime labor enrollment records from 1950-2017 to investigate the association between occupational industries and breast cancer risk. The study identified slightly elevated breast cancer risk across nine major occupational classifications, with the highest risks observed in education (OR: 1.199), professional/scientific/technical activities (OR: 1.118), human health and social work (OR: 1.125), and financial/insurance activities (OR: 1.109), while manufacturing, wholesale/retail trade, information/communication, real estate, and public administration sectors showed smaller but statistically significant increases (ORs ranging from 1.027-1.074). The findings suggest that women employed in certain white-collar professions (education, healthcare, finance, professional services) and some industrial sectors (manufacturing, retail) have modestly increased breast cancer risk compared to other Occupations. The authors recommend further investigation into specific risk factors within these industries—such as work schedules, occupational exposures, socioeconomic factors, or lifestyle patterns associated with these professions—that might explain the slightly elevated breast cancer incidence among female workers in these sectors.
2020
Medicine
A meta-analysis of 6 studies found that exposure to solar ultraviolet (UV) radiation was associated with a 30% reduced breast cancer risk overall, with a dose-response analysis showing a linear protective relationship in women over 40 (14% risk reduction per unit increase in UV exposure). Notably, not tanning and covering the limbs were associated with increased breast cancer risk, while sunscreen use showed no association with risk, suggesting that actual UV skin exposure—rather than ambient UV levels alone—may be the key protective factor. This is the first dose-response meta-analysis demonstrating that higher UV exposure correlates with lower breast cancer risk in a linear fashion among middle-aged and older women, likely through Vitamin D production, though the findings highlight the complex balance between skin cancer risks from excessive UV exposure versus potential breast cancer protection from adequate sun exposure, and the need for further research on how factors like estrogen receptor status, Occupation, and ethnicity modify this relationship.
2020
Medicina
A systematic review of 12 studies examining nurses and shift work found that most studies showed an association between breast cancer and consecutive rotating night shifts prolonged over time, with risk increasing particularly during early adulthood and after 5 or more years of working 6 or more consecutive night shifts. The review identified disruption of circadian rhythm and alterations in peripheral clock genes and reproductive hormones as key mechanisms linking night shift work to breast cancer development, with potential roles for melatonin suppression and epigenetic changes including telomere alterations. These findings are particularly concerning given that nursing is a predominantly female profession requiring 24-hour staffing, suggesting the need for workplace policies that limit consecutive night shifts and total years of night work exposure, along with further research to establish definitive causal mechanisms and identify protective strategies for the millions of women working night shifts globally.
2019
Am J Indust Med
A case-control study of 300 breast cancer cases and 300 age- and residence-matched controls in Morocco examined associations between occupation, industry, and breast cancer risk using detailed occupational histories (jobs held ≥6 months) coded by international standards (ISCO 08, Moroccan Analytical Classification, European Statistical Classification). Women doing only household work showed decreased breast cancer risk (OR=0.32; 95% CI: 0.18-0.55), while agricultural workers—particularly agricultural laborers—had significantly increased risk (OR=2.91; 95% CI: 1.51-5.60) with risk increasing by duration of employment (p-trend=0.01), findings corroborated by industry-level analyses. These results suggest that occupational exposures in agricultural work may substantially increase breast cancer risk among Moroccan women, warranting further investigation with advanced exposure assessment methods to identify specific chemical exposures (likely pesticides and other agricultural chemicals) driving this elevated risk and inform targeted prevention strategies and screening programs for this high-risk occupational group in populations where agriculture employs significant numbers of women.
2019
Breast Cancer Res Treat
A case-control study within the MCC-Spain cohort examined 1,389 invasive breast cancer cases and 1,712 controls aged 20-85 years to investigate domain-specific associations between physical activity and breast cancer risk by menopausal status and molecular subtype. The study found unexpected results: occupational physical activity (OPA) intensity was associated with higher breast cancer risk, particularly for premenopausal women (OR = 1.89 for active/very active vs. sedentary jobs) and ER+/PR+, HER2- tumors (OR = 1.80), while sedentary time ≥6 hours/day increased postmenopausal breast cancer risk by 69%; conversely, moderate-to-high intensity household and recreational physical activity above 1,000 MET·min/week reduced breast cancer risk by 14-33% in both pre- and postmenopausal women. These findings reveal important distinctions between types of physical activity: while leisure-time and household physical activity provide protective benefits against breast cancer, occupational physical activity paradoxically showed positive associations with breast cancer risk—particularly for hormone receptor-positive tumors—which may reflect different biological mechanisms, exposure patterns, or confounding factors associated with Occupation. The study highlights that sitting time is an independent breast cancer risk factor regardless of other physical activity, and the surprising positive association between occupational physical activity and ER+/PR+ breast cancer warrants further investigation to understand underlying mechanisms.
2019
Chronobiol Int
A nested case-control study of 39,686 postmenopausal women in the California Teachers Study found that women with a definite evening chronotype (“night owls”) had a 20% increased breast cancer risk compared to definite morning chronotypes (“morning larks”), even after adjusting for established breast cancer risk factors. Importantly, this association was observed in a population without substantial night shift work history, suggesting that chronotype itself—the behavioral manifestation of an individual’s underlying circadian rhythm—may be an independent breast cancer risk factor beyond the effects of occupational circadian disruption. These findings raise the intriguing possibility that evening chronotypes may be more susceptible to environmental circadian disruption from factors like artificial light exposure, social jet lag (mismatch between biological and social timing), or irregular sleep-wake patterns, and warrant further investigation in other non-shift worker populations to confirm whether innate circadian preference represents a novel, modifiable risk factor for breast cancer through behavioral interventions targeting sleep timing and light exposure patterns.
2019
J Occup Environ Med
This case control study was conducted among Hispanic women agricultural workers who are exposed to pesticides. Chemicals associated with BC risk included organophosphates, organochlorines, and a phthalimide, Captan. The study concluded that agricultural work may be associated with increased BC risk in female Hispanic farm workers.
2019
JAMA Netw Open
A population-based cohort study of over 12 million South Korean youths (ages 0-19) followed from 2006-2015 found that exposure to diagnostic low-dose ionizing radiation was associated with a 64% increased overall cancer incidence, with computed tomography scans specifically showing a 54% increased risk. Among specific cancer types, breast cancer showed a particularly striking 132% increased incidence among exposed individuals, along with thyroid cancer (119% increase), myelodysplasia (148% increase), and other myeloid leukemias (114% increase), with risks remaining significant after adjusting for age and sex. These findings from over 1.2 million exposed children and adolescents who developed 1,444 cancers provide compelling evidence that even low-dose diagnostic radiation during childhood and adolescence—a critical window of susceptibility—substantially increases subsequent cancer risk, underscoring the urgent need for judicious use of radiation-based imaging in young people, adherence to ALARA principles (As Low As Reasonably Achievable), and careful consideration of alternative imaging modalities like ultrasound and MRI that don’t involve ionizing radiation.