On the informative value of community‐based indoor radon values in relation to lung cancer

Albert Rosenberger; Heike Bickeböller; David C. Christiani; Geoffrey Liu; Matthew B. Schabath; Luisa F. Duarte; Loic Le Marchand; Christopher Haiman; Teresa Landi; Dario Consonni; John K. Field; Michael P. A. Davies; Demetrios Albanes; Adonina Tardón; Guillermo Fernández‐Tardón; Gad Rennert; Christopher I. Amos; Rayjean J. Hung

doi:10.1002/cam4.70126

Cancer Medicine (Aug 2024)

On the informative value of community‐based indoor radon values in relation to lung cancer

Albert Rosenberger,
Heike Bickeböller,
David C. Christiani,
Geoffrey Liu,
Matthew B. Schabath,
Luisa F. Duarte,
Loic Le Marchand,
Christopher Haiman,
Teresa Landi,
Dario Consonni,
John K. Field,
Michael P. A. Davies,
Demetrios Albanes,
Adonina Tardón,
Guillermo Fernández‐Tardón,
Gad Rennert,
Christopher I. Amos,
Rayjean J. Hung

Affiliations

Albert Rosenberger: Department of Genetic Epidemiology University Medical Center, Georg‐August‐University Göttingen Göttingen Germany
Heike Bickeböller: Department of Genetic Epidemiology University Medical Center, Georg‐August‐University Göttingen Göttingen Germany
David C. Christiani: Department of Environmental Health Harvard T.H. Chan School of Public Health and Massachusetts General Hospital/Harvard Medical School Boston Massachusetts USA
Geoffrey Liu: Medical Oncology and Medical Biophysics Princess Margaret Cancer Centre Toronto Ontario Canada
Matthew B. Schabath: Department of Cancer Epidemiology H. Lee Moffitt Cancer Center and Research Institute Tampa Florida USA
Luisa F. Duarte: Department of Cancer Epidemiology H. Lee Moffitt Cancer Center and Research Institute Tampa Florida USA
Loic Le Marchand: Epidemiology Program University of Hawaii Cancer Center Honolulu Hawaii USA
Christopher Haiman: Center for Genetic Epidemiology, Department of Population and Public Health Sciences, Keck School of Medicine University of Southern California Los Angeles California USA
Teresa Landi: Division of Cancer Epidemiology and Genetics National Cancer Institute, US National Institutes of Health Bethesda Maryland USA
Dario Consonni: Epidemiology Unit Fondazione IRCCS Ca' Granda Ospedale Maggiore Policlinico Milan Milan Italy
John K. Field: Department of Molecular and Clinical Cancer Medicine Roy Castle Lung Cancer Research Programme, The University of Liverpool Liverpool UK
Michael P. A. Davies: Department of Molecular and Clinical Cancer Medicine Roy Castle Lung Cancer Research Programme, The University of Liverpool Liverpool UK
Demetrios Albanes: Division of Cancer Epidemiology and Genetics National Cancer Institute, US National Institutes of Health Bethesda Maryland USA
Adonina Tardón: Faculty of Medicine University of Oviedo, ISPA and CIBERESP Oviedo Spain
Guillermo Fernández‐Tardón: Faculty of Medicine University of Oviedo, ISPA and CIBERESP Oviedo Spain
Gad Rennert: Clalit National Cancer Control Center and Department of Community Medicine and Epidemiology at Carmel Medical Center and Technion Faculty of Medicine Haifa Israel
Christopher I. Amos: Dan L Duncan Comprehensive Cancer Center Baylor College of Medicine Houston Texas USA
Rayjean J. Hung: Lunenfeld‐Tanenbaum Research Institute, Sinai Health System University of Toronto Toronto Ontario Canada

DOI: https://doi.org/10.1002/cam4.70126
Journal volume & issue: Vol. 13, no. 16
pp. n/a – n/a

Abstract

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Abstract Background Radon is a radioactive gas and a major risk factor for lung cancer (LC). Methods We investigated the dose–response relationship between radon and LC risk in the International Lung Cancer Consortium with 8927 cases and 5562 controls from Europe, North America, and Israel, conducted between 1992 and 2016. Spatial indoor radon exposure in the residential area (sIR) obtained from national surveys was linked to the participants' residential geolocation. Parametric linear and spline functions were fitted within a logistic regression framework. Results We observed a non‐linear spatial‐dose response relationship for sIR < 200 Bq/m3. The lowest risk was observed for areas of mean exposure of 58 Bq/m3 (95% CI: 56.1–59.2 Bq/m3). The relative risk of lung cancer increased to the same degree in areas averaging 25 Bq/m3 (OR = 1.31, 95% CI: 1.01–1.59) as in areas with a mean of 100 Bq/m3 (OR = 1.34, 95% CI: 1.20–1.45). The strongest association was observed for small cell lung cancer and the weakest for squamous cell carcinoma. A stronger association was also observed in men, but only at higher exposure levels. The non‐linear association is primarily observed among the younger population (age < 69 years), but not in the older population, which can potentially represent different biological radiation responses. Conclusions The sIR is useful as proxy of individual radon exposure in epidemiological studies on lung cancer. The usual assumption of a linear, no‐threshold dose–response relationship, as can be made for individual radon exposures, may not be optimal for sIR values of less than 200 Bq/m3.

Published in Cancer Medicine

ISSN: 2045-7634 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: https://onlinelibrary.wiley.com/journal/20457634

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