Human exposure to high natural background radiation: what can it teach us about radiation risks?
- PMID: 19454802
- PMCID: PMC4030667
- DOI: 10.1088/0952-4746/29/2A/S03
Human exposure to high natural background radiation: what can it teach us about radiation risks?
Abstract
Natural radiation is the major source of human exposure to ionising radiation, and its largest contributing component to effective dose arises from inhalation of (222)Rn and its radioactive progeny. However, despite extensive knowledge of radiation risks gained through epidemiologic investigations and mechanistic considerations, the health effects of chronic low-level radiation exposure are still poorly understood. The present paper reviews the possible contribution of studies of populations living in high natural background radiation (HNBR) areas (Guarapari, Brazil; Kerala, India; Ramsar, Iran; Yangjiang, China), including radon-prone areas, to low dose risk estimation. Much of the direct information about risk related to HNBR comes from case-control studies of radon and lung cancer, which provide convincing evidence of an association between long-term protracted radiation exposures in the general population and disease incidence. The success of these studies is mainly due to the careful organ dose reconstruction (with relatively high doses to the lung), and to the fact that large-scale collaborative studies have been conducted to maximise the statistical power and to ensure the systematic collection of information on potential confounding factors. In contrast, studies in other (non-radon) HNBR areas have provided little information, relying mainly on ecological designs and very rough effective dose categorisations. Recent steps taken in China and India to establish cohorts for follow-up and to conduct nested case-control studies may provide useful information about risks in the future, provided that careful organ dose reconstruction is possible and information is collected on potential confounding factors.
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References
-
- Eisenbud M, Gesell T. Environmental Radioactivity from Natural, Industrial, and Military Sources. San Diego, CA: Academic; 1997. chapter 6 (Natural Radioactivity)
-
- Sohrabi M. High radon levels in nature and in dwellings: remedial actions. In: Ilic R, Durrani SA, editors. Radon Measurements by Etched Track Detectors. Applications in Radiation Protection, Earth Sciences and the Environment. Singapore: World Scientific; 1997. pp. 225–242.
-
- Sohrabi M. The state-of-the-art on worldwide studies in some environments with elevated naturally occurring radioactive materials (NORM) Appl. Radiat. Isot. 1998;49:169–188. - PubMed
-
- ICRP 60. 1990 Recommendations of the International Commission on Radiological Protection. Ann. ICRP. 1991;21(issues 1-3) - PubMed
-
- IBSS. Safety Series. Vol. 115. International Atomic Energy Agency; 1996. International basic safety standards for protection against ionizing radiation.
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