연구동향 분석
박사

Study on establishment of radon potential evaluation program with correlation between lung cancer and radon exposure environment among mass outbreak sites of cancer

김민준 2018년

논문상세정보
인용/피인용
' Study on establishment of radon potential evaluation program with correlation between lung cancer and radon exposure environment among mass outbreak sites of cancer' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • Radon and Lung Cancer
  • Uranium
  • indoorairquality(iaq)
  • radon
  • 라돈
  • 라돈 포텐셜
  • 라돈과 폐암
  • 실내공기
  • 우라늄
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
217 0

0.0%

' Study on establishment of radon potential evaluation program with correlation between lung cancer and radon exposure environment among mass outbreak sites of cancer' 의 참고문헌

  • Y. Yasuoka, T. Ishikawa, S. Tokonami, H. Takahashi, A. Sorimachi, M. Shinogi, Radon mitigation using an air cleaner, Journal of Radioanalytical and Nuclear Chemistry, Vol. 279, No.3, 2009, pp.885–891
  • United Nations Scientific Committee on the Effects of Atomic Radiation. Sources and Effects of Ionizing Radiation. UNSCEAR 2000 Report to the General Assembly, with Scientific Annexes. Vol I: Sources New York: United Nations 2000.
  • UNSCEAR 2000. United Nations Scientific Committee on the Effects of Atomic Radiation. Sources and Effects of Ionizing Radiation. New York, 2000.
  • Stranden, E., Assessment of the Radiological Impact by Using Fly Ash in Cement. Health Phys. 45, 1983, 145.
  • Somlai J. et al. Radiological Aspects of the Usability of Red Mud as Building Material Additive, Journal of Hazardous Materials 150, 2008, 541.
  • Sedighian, S., Abdoli, M. A., Niksokhan, M. H., Kim, S. H. and Cho, S. Y. (2015). A New Approach to Derive Clearance Levels for Wastes Containing Naturally Occurring Radioactive Materials (NORM) (Case Study: Lavan Island, Iran). Nature Environment and Pollution Technology, 14, 283-290.
  • Sedighian, S., Abdoli, M. A., Niksokhan, M. H., Kim, M. J. and Cho, S. Y. (2014). Radiological dose assessment of naturally occurring radioactive materials generated by the petroleum industry in wildlife: A case study of chinkaras of Lavan Island, Iran. Journal of Advances in Environmental Health Research, 2, 8.
  • Pressyanov, D., Dimitrov, D. and Dimitrova, I. (2015. Energy-efficient reconstructions and indoor radon: the impact assessed by CDs/DVDs. Journal of Environmental Radioactivity, 143, 76-79.
  • Pianosi, F. and Wagener, T. (2015). A simple and efficient method for global sensitivity analysis based on cumulative distribution functions. Environmental Modelling & Software 67,1-11
  • Parker SL., Tong T., Bolden S., Wingo PA., Cancer statistics, 1996, CA-A Cancer J Clin 1996;46:5-27.
  • P.Kotrappa et al., An electret passive environmental Rn-222 monitor based on ionization measurement. Health Phys. 1988;54:47-66.
  • P. K. Hopkea, N. Montassiera, P. Wasiolek, Evaluation of the Effectiveness of Several Air Cleaners for Reducing the Hazard from Indoor Radon Progeny, Aerosol Science and Technology, Vol.19(3), 1993, pp. 268-278
  • Offermann, F.J., Sextro, R.G., Fisk, W.J., Grimsrud, D.T., Nazaroff, W.W., Nero, A.V., Revzan, K.L., Yater, J., 1985. Control of respirable particles in indoor air with portable air cleaners. Atmos. Environ. 19,1761–1771.
  • National Research Council. Committee on Health Risks of Exposure to Radon: BEIR VI. Health Effects of Exposure to Radon. Washington, DC. National Academy Press 1999.
  • Nagda, N.L. ,Rector, H.E., Koontz, M.D., 1987. Guidelines for Monitoring Indoor Air Quality. Harper & Row, New York, 267pp.
  • Mustonen R., Pennanen M., Annanmaki M. and Oksanen E. Enhanced Radioactivity of Building Materials. Final report of the contract No 96-ET-003 for the European Commission. Radiation and Nuclear Safety Authority – STUK, Finland, 1997; Radiation Protection 96, Luxembourg, 1999.
  • Markkanen M., Radiation Dose Assessments for Materials with Elevated Natural Radioactivity. Report STUK-B-STO 32, Radiation and Nuclear Safety Authority – STUK, 1995.
  • Maher, E.F., Rudnick, S.N., Moeller, D.W., 1987. Effective removal of airborne 222Rn decay products inside buildings. Health Phys. 53(4),351 –356. McLachlan, G., Krishnan, T., 1997. The EMA lgorithm and Extensions. In : Wiley Series inProbability and Statistics. Wiley, New York.
  • M. Urban and E. Piesch., Low level environmental radon dosimetry, with a passive etch device, Rad. Prot. Dos. 1981;1: 97-110.
  • Lundin Jr. ,F.E., Wagner, J.D. ,Archer, V.E., 1971. Radon daughter exposure and respiratory cancer:quantitative and temporal aspects; National Institute for Occupational Safetyand Health(NIOSH). National Institute for Environmental Science (NIES),Washington, DC. Monograph no.1.
  • Lubin JH, Liang Z., Hrubec Z., Pershagen G., Schoenberg JB., Blot WJ., Lotz JB., Xu ZY., Boice JD, Jr. Radon exposure in residences and lung cancer among women: combined analysis of three studies. Cancer Causes Control 1994;5:114-128.
  • Lomas PR, Green BMR, Miles JCH, Kendall GM. Radon Atlas of England. NRPB-R290 Chilton: National Radiological Protection Board 1996.
  • Li, C.S., Hopke, P.K., Efficacy of Air Cleaning Systems in Controlling Indoor Radon Decay Products, Health Physics, Vol.61(6), 1991
  • L.F. Curtis, F.J. Davis, Counting method for the determination of small amounts of radium and radon, J. Res. Natl.Bur. 1943;31:181-195.
  • Kozik A. C, Oppenheim P. and Schneider D. The effect of interior door position and methods of handling return air on differential pressures in a Florida house. The 1992 International Symposium on Radon and Radon Reduction Technology. Minneapolis, MN, U.S. Environmental Protection Agency, Air and Energy Environmental Research Laboratory, Research Triangle Park NC 27711, 1992
  • Kennedy CA, Gray AM. The cost-effectiveness of radon-induced lung cancer prevention in schools, lnt J Environ Health Res 2000; 10: 181-90.
  • James K. D., Gary H. M., William D. S., Steven R. E. Glenn W. R., Protective Responses to Household Risk: A Case Study of Radon Mitigation, Risk Analysis, Vol. 11(1), 1991, pp. 121–134
  • James AC., Lung Dosimetry. In: Radon and its decay products in indoor air, Nazaroff, WW Nero AV, Jr. eds., New York: Wiley, 1988:259-309.
  • Ishimori, Y., Lange, K., Martin, P., Mayya, Y. S. and Phaneuf, M. (2013). Measurement and Calculation of Radon Releases from NORM Residues. International Atomic Energy AgencyVienna
  • International Commission on Radiological Protection (ICRP). Lung cancer risk from indoor exposures to radon daughters. ICRP Publ No. 50. Oxford: Pergamon Press, 1987.
  • International Agency for Research on Cancer. IARC Monographs on the Evaluation of Carcinogenic Risks to Humans. Vol 43. Man-made Mineral Fibres and Radon. Lyon: IARC 1988.
  • INTERNATIONAL COMMISSION ON RADIOLOGICAL PROTECTION, Protection of the Public in Situations of Prolonged Radiation Exposure, Publication 82, Elsevier Science B.V, 1999.
  • I.M. Fisenne, H.W. Keller, The EML pulse ionization chamber for Rn-222 measurements. USDOE Environmental Measurements Laboratory Resport EML-437, 1985, (EML, New York).
  • I. Cozmuta, E.R. van der Graaf, Methods for measuring diffusion coefficients of radon in building materials, Radon in the Living Environment, Athens, Greece, 1999, pp. 345-366.
  • Holub R. F., Droullard R. R, Borak T. B., Inkret W. C, Morse J. G. and Baxter J.F. , Radon-222 and 2 2 2Rn progeny concentrations measured in an energy-efficient house equipped with a heat exchanger. Health Phys. 49, 267-277, 1985
  • Hofmann W, Katz R., Chunxiang Z., Lung cancer risk at low doses of alpha particles, Health Phys 1986;51:457-468
  • Henschel D.B., Radon reduction techniques for existing detached houses: Technical Guidance (Third edition) for Active Soil Depressurization Systems. EPA/625/R-93/011 (US Environmental Protection Agency, Research Triangle Park, NC), 1993.
  • Henschel D.B., Radon Reduction Techniques for Detached Houses: Technical Guidance (Second Edition)., EPA/625-5-87/019 (NTIS PB88-184908) (USEPA, Research Triangle Park, NC), 1988.
  • Henschel D.B., Indoor Radon Reduction in Crawl-space Houses: A review of Alternative Approaches. Indoor Air 2(4), 1992, pp. 272-287
  • Henschel D.B, Analysis of Radon Mitigation Techniques Used in Existing US Houses, Radiat Prot Dosimetry, 56 (1-4), 1994, pp. 21-27.
  • Haghighat F, Lee C-S, Pant B, Bolourani G, Lakdawala N, Bastani A. Evaluation of various activated carbons for air cleaning e Towards design of immune and sustainable buildings. Atmos Environ 2008;42:8176-8184.
  • Field, R. W. (2011). Radon: An Overview of Health Effects. In: NRIAGU, J. O. (ed.) Encyclopedia of Environmental Health. Burlington: Elsevier.
  • F.J. Offermann, R.G. Sextro, W.J. Fisk, D.T. Grimsrud, W.W. Nazaroff, A.V. Nero, K.L. Revzan, J. Yater, Control of respirable particles in indoor air with portable air cleaners, Atmospheric Environment, Vol. 19(11), 1985, pp. 1761–1771
  • Denman AR, Phillips PS, Tornberg R. A comparison of the costs and benefits of radon remediation programmes in new and existing houses in Northamptonshire. J Environ Management 2000; 59:21-30.
  • Committee for the Compilation of Materials on Cancer Caused by the Atomic Bombs in Hiroshima and Nagasaki: The physical, medical and social effects of the atomic bombings. New York: Basic Books Inc., 1981.
  • Building Research Establishment. Radon: Guidance on protective measures for new dwellings. London Construction Research Communications 1999.
  • Becker, A. P. I II, and T. M. Lachajczyk., Evaluation of waterborne radon impact on indoor air quality and assessment of control options. U.S. Environmental Protection Agency, 1984, EPA-60017-84-093.
  • Auvinen A, Makelainen I, Hakama M, et al. Indoor radon exposure and risk of lung cancer: a nested case-control study in Finland. J Natl Cancer Inst 1996;88:966-72.
  • A R Denman and P S Philips, A review of the cost effectiveness of radon mitigation in domestic properties in Northamptonshire, J. Radiol. Prot. 18, 1998, p. 119 doi:10.1088/0952-4746/18/2/007