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Trends in research on indoor radon exposure and lung cancer in South Korea
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Dae Ryong Kang, Dongmug Kang, Kyoung-Bok Min, Changsoo Kim, Sung-Soo Oh, Sang-Baek Koh
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Ann Occup Environ Med 2016;28:10. Published online March 8, 2016
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DOI: https://doi.org/10.1186/s40557-016-0100-9
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- Spatial modeling of radon potential mapping using deep learning algorithms
Mahdi Panahi, Peyman Yariyan, Fatemeh Rezaie, Sung Won Kim, Alireza Sharifi, Ali Asghar Alesheikh, Jongchun Lee, Jungsub Lee, Seonhong Kim, Juhee Yoo, Saro Lee Geocarto International.2022; 37(25): 9560. CrossRef - Erratum to: Trends in research on indoor radon exposure and lung cancer in South Korea
Dae Ryong Kang, Dongmug Kang, Kyoung-Bok Min, Changsoo Kim, Sung-Soo Oh, Sang-Baek Koh Annals of Occupational and Environmental Medicine.2016;[Epub] CrossRef - Information Insufficiency and Information Seeking
Yoori Hwang, Se-Hoon Jeong Science Communication.2016; 38(6): 679. CrossRef
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Erratum to: An updated review of case–control studies of lung cancer and indoor radon-Is indoor radon the risk factor for lung cancer?
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Seungsoo Sheen, Keu Sung Lee, Wou Young Chung, Saeil Nam, Dae Ryong Kang
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Ann Occup Environ Med 2016;28:70. Published online December 28, 2016
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DOI: https://doi.org/10.1186/s40557-016-0155-7
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- Radiation-related health hazards to uranium miners
Yuliya Semenova, Lyudmila Pivina, Yersin Zhunussov, Marat Zhanaspayev, Salvatore Chirumbolo, Zhanna Muzdubayeva, Geir Bjørklund Environmental Science and Pollution Research.2020; 27(28): 34808. CrossRef
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Erratum to: Trends in research on indoor radon exposure and lung cancer in South Korea
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Dae Ryong Kang, Dongmug Kang, Kyoung-Bok Min, Changsoo Kim, Sung-Soo Oh, Sang-Baek Koh
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Ann Occup Environ Med 2016;28:71. Published online December 28, 2016
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DOI: https://doi.org/10.1186/s40557-016-0156-6
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A review on mathematical models for estimating indoor radon concentrations
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Ji Hyun Park, Dae Ryong Kang, Jinheum Kim
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Ann Occup Environ Med 2016;28:7. Published online February 25, 2016
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DOI: https://doi.org/10.1186/s40557-016-0091-6
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Abstract
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Radiation from natural sources is one of causes of the environmental diseases. Radon is the leading environmental cause of lung cancer next to smoking. To investigate the relationship between indoor radon concentrations and lung cancer, researchers must be able to estimate an individual’s cumulative level of indoor radon exposure and to do so, one must first be able to assess indoor radon concentrations. In this article, we outline factors affecting indoor radon concentrations and review related mathematical models based on the mass balance equation and the differential equations. Furthermore, we suggest the necessities of applying time-dependent functions for indoor radon concentrations and developing stochastic models.
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- Machine learning in environmental radon science
Javier Elío, Eric Petermann, Peter Bossew, Miroslaw Janik Applied Radiation and Isotopes.2023; 194: 110684. CrossRef - Experimental Studies to Test a Predictive Indoor Radon Model
Simona Mancini, Martins Vilnitis, Nataša Todorović, Jovana Nikolov, Michele Guida International Journal of Environmental Research and Public Health.2022; 19(10): 6056. CrossRef - General model for estimation of indoor radon concentration dynamics
Alla Dvorzhak, Juan Carlos Mora, Almudena Real, Carlos Sainz, Ismael Fuente Environmental Science and Pollution Research.2021; 28(38): 54085. CrossRef - The 222Rn and 220Rn concentrations in some dwellings of Mandya city and its surroundings, Karnataka, India
Kesthur Naraseyappa Narasimhamurthy, Godekere Visweswaraiah Ashok, Thuruganur Siddaiah Shashi Kumar, Ningaiah Nagaiah Indoor and Built Environment.2021; 30(8): 1295. CrossRef - A STUDY ON THE RADIATION DOSE DUE TO DISSOLVED 222RN IN WATER SAMPLES OF MANDYA CITY, KARNATAKA, INDIA
K N Narasimhamurthy, G V Ashok, T S Shashi Kumar, N Nagaiah, M B Karthik Kumar Radiation Protection Dosimetry.2021; 194(2-3): 113. CrossRef - A Deterministic Model for Estimating Indoor Radon Concentrations in South Korea
Ji Hyun Park, Cheol Min Lee, Dae Ryong Kang International Journal of Environmental Research and Public Health.2019; 16(18): 3424. CrossRef - Numerical modeling of the sources and behaviors of 222Rn, 220Rn and their progenies in the indoor environment—A review
Jun Hu, Guosheng Yang, Miklós Hegedűs, Kazuki Iwaoka, Masahiro Hosoda, Shinji Tokonami Journal of Environmental Radioactivity.2018; 189: 40. CrossRef - Measurement and modeling of indoor radon concentrations in residential buildings
Ji Hyun Park, Sungim Whang, Hyun Young Lee, Cheol-Min Lee, Dae Ryong Kang Environmental Health and Toxicology.2018; 33(1): e2018003. CrossRef
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Residential radon and environmental burden of disease among Non-smokers
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Juhwan Noh, Jungwoo Sohn, Jaelim Cho, Dae Ryong Kang, Sowon Joo, Changsoo Kim, Dong Chun Shin
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Ann Occup Environ Med 2016;28:12. Published online March 15, 2016
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DOI: https://doi.org/10.1186/s40557-016-0092-5
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Abstract
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- Background
Lung cancer was the second highest absolute cancer incidence globally and the first cause of cancer mortality in 2014. Indoor radon is the second leading risk factor of lung cancer after cigarette smoking among ever smokers and the first among non-smokers. Environmental burden of disease (EBD) attributable to residential radon among non-smokers is critical for identifying threats to population health and planning health policy. MethodsTo identify and retrieve literatures describing environmental burden of lung cancer attributable to residential radon, we searched databases including Ovid-MEDLINE, -EMBASE from 1980 to 2016. Search terms included patient keywords using ‘lung’, ‘neoplasm’, exposure keywords using ‘residential’, ‘radon’, and outcomes keywords using ‘years of life lost’, ‘years of life lost due to disability’, ‘burden’. Searching through literatures identified 261 documents; further 9 documents were identified using manual searching. Two researchers independently assessed 271 abstracts eligible for inclusion at the abstract level. Full text reviews were conducted for selected publications after the first assessment. Ten studies were included in the final evaluation. ReviewGlobal disability‐adjusted life years (DALYs)(95 % uncertainty interval) for lung cancer were increased by 35.9 % from 23,850,000(18,835,000-29,845,000) in 1900 to 32,405,000(24,400,000-38,334,000) in 2000. DALYs attributable to residential radon were 2,114,000(273,000-4,660,000) DALYs in 2010. Lung cancer caused 34,732,900(33,042,600 ~ 36,328,100) DALYs in 2013. DALYs attributable to residential radon were 1,979,000(1,331,000-2,768,000) DALYs for in 2013. The number of attributable lung cancer cases was 70-900 and EBD for radon was 1,000-14,000 DALYs in Netherland. The years of life lost were 0.066 years among never-smokers and 0.198 years among ever-smoker population in Canada. ConclusionIn summary, estimated global EBD attributable to residential radon was 1,979,000 DALYs for both sexes in 2013. In Netherlands, EBD for radon was 1,000–14,000 DALYs. Smoking population lost three times more years than never-smokers in Canada. There was no study estimating EBD of residential radon among never smokers in Korea and Asian country. In addition, there were a few studies reflecting the age of building, though residential radon exposure level depends on the age of building. Further EBD study reflecting Korean disability weight and the age of building is required to estimate EBD precisely. Electronic supplementary materialThe online version of this article (doi:10.1186/s40557-016-0092-5) contains supplementary material, which is available to authorized users.
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Kevin Washetine, Mehdi Kara-Borni, Simon Heeke, Christelle Bonnetaud, Jean-Marc Félix, Lydia Ribeyre, Coraline Bence, Marius Ilié, Olivier Bordone, Marine Pedro, Priscilla Maitre, Virginie Tanga, Emmanuelle Gormally, Pascal Mossuz, Philippe Lorimier, Char Cancers.2018; 10(6): 195. CrossRef
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Attributable risk of lung cancer deaths due to indoor radon exposure
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Si-Heon Kim, Won Ju Hwang, Jeong-Sook Cho, Dae Ryong Kang
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Ann Occup Environ Med 2016;28:8. Published online February 26, 2016
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DOI: https://doi.org/10.1186/s40557-016-0093-4
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Abstract
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Exposure to radon gas is the second most common cause of lung cancer after smoking. A large number of studies have reported that exposure to indoor radon, even at low concentrations, is associated with lung cancer in the general population. This paper reviewed studies from several countries to assess the attributable risk (AR) of lung cancer death due to indoor radon exposure and the effect of radon mitigation thereon. Worldwide, 3–20 % of all lung cancer deaths are likely caused by indoor radon exposure. These values tend to be higher in countries reporting high radon concentrations, which can depend on the estimation method. The estimated number of lung cancer deaths due to radon exposure in several countries varied from 150 to 40,477 annually. In general, the percent ARs were higher among never-smokers than among ever-smokers, whereas much more lung cancer deaths attributable to radon occurred among ever-smokers because of the higher rate of lung cancers among smokers. Regardless of smoking status, the proportion of lung cancer deaths induced by radon was slightly higher among females than males. However, after stratifying populations according to smoking status, the percent ARs were similar between genders. If all homes with radon above 100 Bq/m3 were effectively remediated, studies in Germany and Canada found that 302 and 1704 lung cancer deaths could be prevented each year, respectively. These estimates, however, are subject to varying degrees of uncertainty related to the weakness of the models used and a number of factors influencing indoor radon concentrations.
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An updated review of case–control studies of lung cancer and indoor radon-Is indoor radon the risk factor for lung cancer?
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Seungsoo Sheen, Keu Sung Lee, Wou Young Chung, Saeil Nam, Dae Ryong Kang
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Ann Occup Environ Med 2016;28:9. Published online March 3, 2016
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DOI: https://doi.org/10.1186/s40557-016-0094-3
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Abstract
PDFPubReaderePub
Lung cancer is a leading cause of cancer-related death in the world. Smoking is definitely the most important risk factor for lung cancer. Radon (222Rn) is a natural gas produced from radium (226Ra) in the decay series of uranium (238U). Radon exposure is the second most common cause of lung cancer and the first risk factor for lung cancer in never-smokers. Case–control studies have provided epidemiological evidence of the causative relationship between indoor radon exposure and lung cancer. Twenty-four case–control study papers were found by our search strategy from the PubMed database. Among them, seven studies showed that indoor radon has a statistically significant association with lung cancer. The studies performed in radon-prone areas showed a more positive association between radon and lung cancer. Reviewed papers had inconsistent results on the dose–response relationship between indoor radon and lung cancer risk. Further refined case–control studies will be required to evaluate the relationship between radon and lung cancer. Sufficient study sample size, proper interview methods, valid and precise indoor radon measurement, wide range of indoor radon, and appropriate control of confounders such as smoking status should be considered in further case–control studies.
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Citations
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- Are fluorite mines prone to high concentrations of radon gas inside? The case of the Lújar mine in Órgiva (Granada, Southeast Spain)
Juan C. Santamarta, Jesica Rodríguez-Martín, Rafael Navarro, Claudio Trapero-Ruiz, Alejandro García-Gil, Noelia Cruz-Pérez Euro-Mediterranean Journal for Environmental Integration.2024; 9(1): 419. CrossRef - Counting alpha particles produced by radon daughters using commercial off-the-shelf complementary metal oxide semiconductor (COTS CMOS) image sensors
Fen Lin, Ruomei Xie, Huiying Li, Shuaibin Liu, Tao Hu, Zhongkai Fan, Yixiang Mo, Shuai Yuan, Jiale Sun, Haibo Yi, Zhipeng Liu, Jiulin Wu, Jianfeng Tang, Hongzhi Yuan, Yanliang Tan Journal of Instrumentation.2024; 19(04): T04001. CrossRef - Analysis of the cancer occurrence related to natural radioactivity in the Rio Grande do Norte State, Brazil
Simone Martinelli, Amanda Nogueira Medeiros, Raquel Franco de Souza, Agustina Maria Marconi, Julio Alejandro Navoni Environmental Science and Pollution Research.2023; 30(38): 89140. CrossRef - Occupational exposure monitoring for radon in various manufacturing workplaces and underground public-use facilities in Korea
Seokwon Lee, Daesung Lim, Sungchul Seo Environmental Science: Advances.2023; 2(3): 433. CrossRef - Indoor Radon in EGFR- and BRAF-Mutated and ALK-Rearranged Non–Small-Cell Lung Cancer Patients
Laura Mezquita, Amparo Benito, Alberto Ruano-Raviña, Javier Zamora, Maria Eugenia Olmedo, Pablo Reguera, Ainhoa Madariaga, María Villamayor, Silvia Patricia Cortez, Luis Gorospe, Almudena Santón, Sagrario Mayoralas, Raúl Hernanz, Alberto Cabañero, Edouard Clinical Lung Cancer.2019; 20(4): 305. CrossRef - County-level radon exposure and all-cause mortality risk among Medicare beneficiaries
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Claire Dalencourt, Annie Michaud, Azza Habibi, Alexa Leblanc, Dominic Larivière Journal of Analytical Atomic Spectrometry.2018; 33(6): 1031. CrossRef - Health Impacts of Low-Dose Ionizing Radiation: Current Scientific Debates and Regulatory Issues
Alexander Vaiserman, Alexander Koliada, Oksana Zabuga, Yehoshua Socol Dose-Response.2018; 16(3): 155932581879633. CrossRef - Risk assessment due to inhalation of radon in Coorg district, Karnataka
M. M. Prakash, Kaliprasad C. S., Y. Narayana Journal of Radioanalytical and Nuclear Chemistry.2017; 314(3): 2057. CrossRef - Radiation Therapy for Invasive Breast Cancer Increases the Risk of Second Primary Lung Cancer: A Nationwide Population-Based Cohort Analysis
Yi-Jhih Huang, Tsai-Wang Huang, Fu-Huang Lin, Chi-Hsiang Chung, Chang-Huei Tsao, Wu-Chien Chien Journal of Thoracic Oncology.2017; 12(5): 782. CrossRef - Radon-induced lung cancer deaths may be overestimated due to failure to account for confounding by exposure to diesel engine exhaust in BEIR VI miner studies
Xiaodong Cao, Piers MacNaughton, Jose Cedeno Laurent, Joseph G. Allen, Jaymie Meliker PLOS ONE.2017; 12(9): e0184298. CrossRef - Novel Genetic Associations Between Lung Cancer and Indoor Radon Exposure
Jung Ran Choi, Sang-Baek Koh, Seong Yong Park, Hye Run Kim, Hyojin Lee, Dae Ryong Kang Journal of Cancer Prevention.2017; 22(4): 234. CrossRef - Erratum to: An updated review of case–control studies of lung cancer and indoor radon-Is indoor radon the risk factor for lung cancer?
Seungsoo Sheen, Keu Sung Lee, Wou Young Chung, Saeil Nam, Dae Ryong Kang Annals of Occupational and Environmental Medicine.2016;[Epub] CrossRef
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Gene mutation discovery research of non-smoking lung cancer patients due to indoor radon exposure
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Jung Ran Choi, Seong Yong Park, O Kyu Noh, Young Wha Koh, Dae Ryong Kang
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Ann Occup Environ Med 2016;28:13. Published online March 16, 2016
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DOI: https://doi.org/10.1186/s40557-016-0095-2
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Abstract
PDFPubReaderePub
Although the incidence and mortality for most cancers such as lung and colon are decreasing in several countries, they are increasing in several developed countries because of an unhealthy western lifestyles including smoking, physical inactivity and consumption of calorie-dense food. The incidences for lung and colon cancers in a few of these countries have already exceeded those in the United States and other western countries. Among them, lung cancer is the main cause of cancer death in worldwide. The cumulative survival rate at five years differs between 13 and 21 % in several countries. Although the most important risk factors are smoking for lung cancer, however, the increased incidence of lung cancer in never smokers(LCINS) is necessary to improve knowledge concerning other risk factors. Environmental factors and genetic susceptibility are also thought to contribute to lung cancer risk. Patients with lung adenocarcinoma who have never smoking frequently contain mutation within tyrosine kinase domain of the epidermal growth factor receptor(EGFR) gene. Also, K-ras mutations are more common in individuals with a history of smoking use and are related with resistance to EFGR-tyrosine kinase inhibitors. Recently, radon(Rn), natural and noble gas, has been recognized as second common reason of lung cancer. In this review, we aim to know whether residential radon is associated with an increased risk for developing lung cancer and regulated by several genetic polymorphisms.
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Zexi Liao, Minhan Yi, Jiaxin Li, Yuan Zhang Expert Review of Respiratory Medicine.2022; 16(9): 997. CrossRef - The role of oral microbiome in respiratory health and diseases
Janak L. Pathak, Yongyong Yan, Qingbin Zhang, Liping Wang, Linhu Ge Respiratory Medicine.2021; 185: 106475. CrossRef - Analysis of human papillomaviruses and human polyomaviruses in lung cancer from Swedish never-smokers
Torbjörn Ramqvist, Christian Ortiz-Villalon, Eva Brandén, Hirsh Koyi, Luigi de Petris, Gunnar Wagenius, Ola Brodin, Christel Reuterswärd, Tina Dalianis, Mats Jönsson, Johan Staaf, Rolf Lewensohn, Maria Planck Acta Oncologica.2020; 59(1): 28. CrossRef - Gene polymorphism of DNA repair gene X‐ray repair cross complementing group 1 and xeroderma pigmentosum group D and environment interaction in non‐small‐cell lung cancer for Chinese nonsmoking female patients
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Elisabeth Smolle, Martin Pichler Cancers.2019; 11(2): 204. CrossRef - Indoor radon exposure increases tumor mutation burden in never-smoker patients with lung adenocarcinoma
Sun Min Lim, Jae Woo Choi, Min Hee Hong, Dongmin Jung, Chang Young Lee, Seong Yong Park, Hyo Sup Shim, Seungsoo Sheen, Kyeong Im Kwak, Dae Ryong Kang, Byoung Chul Cho, Hye Ryun Kim Lung Cancer.2019; 131: 139. CrossRef - Dysbiosis of the Salivary Microbiome Is Associated With Non-smoking Female Lung Cancer and Correlated With Immunocytochemistry Markers
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Jung Ran Choi, Sang Baek Koh, Hye Ryun Kim, Hyojin Lee, Dae Ryong Kang Journal of Korean Medical Science.2018;[Epub] CrossRef - Ensuring the Safety and Security of Frozen Lung Cancer Tissue Collections through the Encapsulation of Dried DNA
Kevin Washetine, Mehdi Kara-Borni, Simon Heeke, Christelle Bonnetaud, Jean-Marc Félix, Lydia Ribeyre, Coraline Bence, Marius Ilié, Olivier Bordone, Marine Pedro, Priscilla Maitre, Virginie Tanga, Emmanuelle Gormally, Pascal Mossuz, Philippe Lorimier, Char Cancers.2018; 10(6): 195. CrossRef - Novel Genetic Associations Between Lung Cancer and Indoor Radon Exposure
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Indoor radon exposure and lung cancer: a review of ecological studies
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Ji Young Yoon, Jung-Dong Lee, So Won Joo, Dae Ryong Kang
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Ann Occup Environ Med 2016;28:15. Published online March 25, 2016
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DOI: https://doi.org/10.1186/s40557-016-0098-z
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Abstract
PDFPubReaderePub
Lung cancer has high mortality and incidence rates. The leading causes of lung cancer are smoking and radon exposure. Indeed, the World Health Organization (WHO) has categorized radon as a carcinogenic substance causing lung cancer. Radon is a natural, radioactive substance; it is an inert gas that mainly exists in soil or rock. The gas decays into radioactive particles called radon progeny that can enter the human body through breathing. Upon entering the body, these radioactive elements release α-rays that affect lung tissue, causing lung cancer upon long-term exposure thereto. Epidemiological studies first outlined a high correlation between the incidence rate of lung cancer and exposure to radon progeny among miners in Europe. Thereafter, data and research on radon exposure and lung cancer incidence in homes have continued to accumulate. Many international studies have reported increases in the risk ratio of lung cancer when indoor radon concentrations inside the home are high. Although research into indoor radon concentrations and lung cancer incidence is actively conducted throughout North America and Europe, similar research is lacking in Korea. Recently, however, studies have begun to accumulate and report important data on indoor radon concentrations across the nation. In this study, we aimed to review domestic and foreign research into indoor radon concentrations and to outline correlations between indoor radon concentrations in homes and lung cancer incidence, as reported in ecological studies thereof. Herein, we noted large differences in radon concentrations between and within individual countries. For Korea, we observed tremendous differences in indoor radon concentrations according to region and year of study, even within the same region. In correlation analysis, lung cancer incidence was not found to be higher in areas with high indoor radon concentrations in Korea. Through our review, we identified a need to implement a greater variety of statistical analyses in research on indoor radon concentrations and lung cancer incidence. Also, we suggest that cohort research or patient-control group research into radon exposure and lung cancer incidence that considers smoking and other factors is warranted.
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