Outdoor Light at Night and Breast Cancer Incidence in the Nurses’ Health Study II

Background: Animal and epidemiologic studies suggest that exposure to light at night (LAN) may disrupt circadian patterns and decrease nocturnal secretion of melatonin, which may disturb estrogen regulation, leading to increased breast cancer risk. Objectives: We examined the association between residential outdoor LAN and breast cancer incidence using data from the nationwide U.S.-based Nurses’ Health Study II cohort. Methods: We followed 109,672 women from 1989 through 2013. Cumulative LAN exposure was estimated using time-varying satellite data for a composite of persistent nighttime illumination at ∼1 km2 scale for each residence during follow-up. Incident invasive breast cancer cases were confirmed by medical record review. We used Cox proportional hazard models to calculate hazard ratios (HRs) and 95% confidence intervals (CIs), adjusting for anthropometric, reproductive, lifestyle, and socioeconomic risk factors. Results: Over 2,187,425 person-years, we identified 3,549 incident breast cancer cases. Based on a fully adjusted model, the estimated HR for incident breast cancer with an interquartile range (IQR) (31.6 nW/cm2/sr) increase in cumulative average outdoor LAN was 1.05 (95% CI: 1.00, 1.11). An association between LAN and breast cancer appeared to be limited to women who were premenopausal at the time of a case [HR=1.07 (95% CI: 1.01, 1.14) based on 1,973 cases vs. HR=1.00 (95% CI: 0.91, 1.09) based on 1,172 cases in postmenopausal women; p-interaction=0.08]. The LAN–breast cancer association was observed only in past and current smokers at the end of follow-up [HR=1.00 (95% CI: 0.94, 1.07) based on 2,215 cases in never smokers; HR=1.10 (95% CI: 1.01, 1.19) based on 1,034 cases in past smokers vs. HR=1.21 (95% CI: 1.07, 1.37) for 300 cases in current smokers; p-interaction=0.08]. Conclusions: Although further work is required to confirm our results and to clarify potential mechanisms, our findings suggest that exposure to residential outdoor light at night may contribute to invasive breast cancer risk. https://doi.org/10.1289/EHP935

[1]  W. Willett,et al.  Reproducibility and validity of a semiquantitative food frequency questionnaire. , 1985, American journal of epidemiology.

[2]  W. Willett,et al.  Diet and breast cancer , 2022, Nature.

[3]  M. Stampfer,et al.  Test of the National Death Index and Equifax Nationwide Death Search. , 1994, American journal of epidemiology.

[4]  G A Colditz,et al.  Reproducibility and validity of a self-administered physical activity questionnaire. , 1994, International journal of epidemiology.

[5]  E. Negri,et al.  Cigarette smoking and the risk of breast cancer , 1996, European journal of cancer prevention : the official journal of the European Cancer Prevention Organisation.

[6]  J. Manson,et al.  Geographic variation in breast cancer incidence rates in a cohort of U.S. women. , 1997, Journal of the National Cancer Institute.

[7]  J. Kaprio,et al.  Environmental and heritable factors in the causation of cancer--analyses of cohorts of twins from Sweden, Denmark, and Finland. , 2000, The New England journal of medicine.

[8]  W. Willett Diet and breast cancer , 2001, Journal of internal medicine.

[9]  F Laden,et al.  Rotating night shifts and risk of breast cancer in women participating in the nurses' health study. , 2001, Journal of the National Cancer Institute.

[10]  W. Willett,et al.  Active and Passive Smoking in Breast Cancer: Prospective Results from the Nurses’ Health Study , 2002, Epidemiology.

[11]  A. Ziogas,et al.  Regional Variations in Breast Cancer Among California Teachers , 2004, Epidemiology.

[12]  A. Ziogas,et al.  Active smoking, household passive smoking, and breast cancer: evidence from the California Teachers Study. , 2004, Journal of the National Cancer Institute.

[13]  David E. Blask,et al.  Light During Darkness and Cancer: Relationships in Circadian Photoreception and Tumor Biology , 2006, Cancer Causes & Control.

[14]  A. Miller,et al.  Cigarette smoking and breast cancer risk: update of a prospective cohort study , 2006, Breast Cancer Research and Treatment.

[15]  S. Hankinson,et al.  Night Work and Risk of Breast Cancer , 2006, Epidemiology.

[16]  M. Dowsett,et al.  Urinary 6‐sulfatoxymelatonin levels and their correlations with lifestyle factors and steroid hormone levels , 2006, Journal of pineal research.

[17]  Kurt Straif,et al.  Carcinogenicity of shift-work, painting, and fire-fighting. , 2007, The Lancet. Oncology.

[18]  Mark S. Rea,et al.  Meeting Report: The Role of Environmental Lighting and Circadian Disruption in Cancer and Other Diseases , 2007, Environmental health perspectives.

[19]  I. Kloog,et al.  Light at Night Co‐distributes with Incident Breast but not Lung Cancer in the Female Population of Israel , 2008, Chronobiology international.

[20]  R. Tamimi,et al.  Comparison of estrogen receptor results from pathology reports with results from central laboratory testing. , 2008, Journal of the National Cancer Institute.

[21]  G. Colditz,et al.  Comparison of molecular phenotypes of ductal carcinoma in situ and invasive breast cancer , 2008, Breast Cancer Research.

[22]  R. Stevens Light-at-night, circadian disruption and breast cancer: assessment of existing evidence. , 2009, International journal of epidemiology.

[23]  D. Blask,et al.  Melatonin, sleep disturbance and cancer risk. , 2009, Sleep medicine reviews.

[24]  Susan E Hankinson,et al.  Urinary Melatonin Levels and Postmenopausal Breast Cancer Risk in the Nurses' Health Study Cohort , 2009, Cancer Epidemiology Biomarkers & Prevention.

[25]  I. Kloog,et al.  Nighttime light level co-distributes with breast cancer incidence worldwide , 2010, Cancer Causes & Control.

[26]  Lin Yuan,et al.  Circadian regulation of molecular, dietary, and metabolic signaling mechanisms of human breast cancer growth by the nocturnal melatonin signal and the consequences of its disruption by light at night , 2011, Journal of pineal research.

[27]  T. Rohan,et al.  Association of active and passive smoking with risk of breast cancer among postmenopausal women: a prospective cohort study , 2011, BMJ : British Medical Journal.

[28]  Richard G. Stevens,et al.  Testing the Light-at-Night (LAN) Theory for Breast Cancer Causation , 2011, Chronobiology international.

[29]  M. Figueiro,et al.  Measurements of Light at Night (LAN) for a Sample of Female School Teachers , 2011, Chronobiology international.

[30]  E. Rimm,et al.  Alternative dietary indices both strongly predict risk of chronic disease. , 2012, The Journal of nutrition.

[31]  J. Palmer,et al.  Individual and neighborhood socioeconomic status in relation to breast cancer incidence in African-American women. , 2012, American journal of epidemiology.

[32]  M. Thun,et al.  Active smoking and breast cancer risk: original cohort data and meta-analysis. , 2013, Journal of the National Cancer Institute.

[33]  Sara E. Wagner,et al.  A case-referent study: light at night and breast cancer risk in Georgia , 2013, International Journal of Health Geographics.

[34]  THE CASE-REFERENT STUDY , 2013 .

[35]  P. Reynolds,et al.  A cross-sectional analysis of light at night, neighborhood sociodemographics and urinary 6-sulfatoxymelatonin concentrations: implications for the conduct of health studies , 2013, International Journal of Health Geographics.

[36]  Susan Hurley,et al.  Light at Night and Breast Cancer Risk Among California Teachers , 2014, Epidemiology.

[37]  Michael W. Greene,et al.  Light Exposure at Night Disrupts Host/Cancer Circadian Regulatory Dynamics: Impact on the Warburg Effect, Lipid Signaling and Tumor Growth Prevention , 2014, PloS one.

[38]  Duanping Liao,et al.  Spatio-temporal modeling of particulate air pollution in the conterminous United States using geographic and meteorological predictors , 2014, Environmental Health.

[39]  A. Haim,et al.  Artificial light at night: melatonin as a mediator between the environment and epigenome , 2015, Philosophical Transactions of the Royal Society B: Biological Sciences.

[40]  Natalya A. Rybnikova,et al.  Using light-at-night (LAN) satellite data for identifying clusters of economic activities in Europe , 2015 .

[41]  I. Gram,et al.  Smoking and Risk of Breast Cancer in a Racially/Ethnically Diverse Population of Mainly Women Who Do Not Drink Alcohol: The MEC Study. , 2015, American journal of epidemiology.

[42]  Andrew H. Beck,et al.  Alcohol Consumption and Risk of Breast Cancer by Tumor Receptor Expression , 2015, Hormones and Cancer.

[43]  B. Portnov,et al.  Artificial Light at Night (ALAN) and breast cancer incidence worldwide: A revisit of earlier findings with analysis of current trends , 2015, Chronobiology international.

[44]  Christopher D. Elvidge,et al.  DMSP-OLS Radiance Calibrated Nighttime Lights Time Series with Intercalibration , 2015, Remote. Sens..

[45]  YunJeong Kim,et al.  High prevalence of breast cancer in light polluted areas in urban and rural regions of South Korea: An ecologic study on the treatment prevalence of female cancers based on National Health Insurance data , 2015, Chronobiology international.

[46]  Abraham Haim,et al.  Can Avoiding Light at Night Reduce the Risk of Breast Cancer? , 2016, Integrative cancer therapies.

[47]  Boris A Portnov,et al.  Light at night and breast cancer incidence in Connecticut: An ecological study of age group effects. , 2016, The Science of the total environment.

[48]  Yudan Wei,et al.  PAHs and PM2.5 emissions and female breast cancer incidence in metro Atlanta and rural Georgia , 2016, International journal of environmental health research.

[49]  Andrew H. Beck,et al.  Reproductive risk factors in relation to molecular subtypes of breast cancer: Results from the nurses' health studies , 2016, International journal of cancer.

[50]  Molin Wang,et al.  Statistical methods for studying disease subtype heterogeneity , 2016, Statistics in medicine.

[51]  T. Lam,et al.  Cancer Mortality Risks from Long-term Exposure to Ambient Fine Particle , 2016, Cancer Epidemiology, Biomarkers & Prevention.

[52]  Keren Or-Chen,et al.  Illuminating a Risk for Breast Cancer: A Preliminary Ecological Study on the Association Between Streetlight and Breast Cancer , 2016, Integrative cancer therapies.

[53]  M. Thun,et al.  Pooled analysis of active cigarette smoking and invasive breast cancer risk in 14 cohort studies. , 2016, International journal of epidemiology.

[54]  Keren Or-Chen,et al.  Light and the City: Breast Cancer Risk Factors Differ Between Urban and Rural Women in Israel , 2016, Integrative cancer therapies.