Free Access
Volume 50, Number 3, Juillet-Septembre 2015
Page(s) 177 - 185
Published online 16 July 2015
  • Bilski P. et al. (2011) The new eye-ddosemeter for measurements of Hp(3) for medical staff, Radiat. Meas. 46 (11), 1239-1242. [CrossRef] [Google Scholar]
  • Bordy J.M. et al. (2011) Proposals for the type tests and calibration methodology of passive eye lens dosimeters in interventional cardiology and radiology workplaces, Radiat. Meas. 46 (11), 1235-1238. [CrossRef] [Google Scholar]
  • Chodick G. et al. (2008) Risk of cataract after exposure to low doses of ionizing radiation: a 20-year prospective cohort study among US radiologic technologists, Am. J. Epidemiol. 168, 620-31. [CrossRef] [PubMed] [Google Scholar]
  • Clairand I. et al. (2008) Intercomparison of active personal dosemeters in interventional radiology, Radiat. Prot. Dosim. 129 (1-3), 340-345. [CrossRef] [Google Scholar]
  • Daures J. et al. (2009) Conversion coefficients from air kerma to personal dose equivalent Hp(3) for eye-lens dosimetry, ISSN-0429-3460, CEA-R-6235 Saclay, France. [Google Scholar]
  • Daures J. et al. (2011) Monte Carlo determination of the conversion coefficients Hp(3)/Ka in a right cylinder phantom with penelope code. Comparison with “mcnp” simulations, Radiat. Prot. Dosim. 144 (1-4), 37-42. [Google Scholar]
  • Denoziere M. et al. (2007) Pulsed X-rays for interventional radiology: tests on active personal dosemeters (APD) (European project FP7 ORAMED WP3), CEA-R-6233, ISSN-0429-3460. [Google Scholar]
  • Dusciac D. et al. (2013) Étude pour l’établissement d’une référence de faisceaux photoniques de haute énergie pour la radioprotection. In: Proceedings of Congrès National de radioprotection, SFRP, 11–13 juin 2013, Bordeaux. [Google Scholar]
  • EURATOM (2013) European directive 2013/59. Basic Safety Standards for protection against the dangers arising from exposure to ionizing radiation. [Google Scholar]
  • European Commission PR 73 (1994) Technical Recommendations for Monitoring Individuals Exposed to External Radiation, report EUR 14852 EN. [Google Scholar]
  • European Commission PR 160 (2009) Technical Recommendations for Monitoring Individuals Exposed to External Radiation, Radiation Protection No 160. [Google Scholar]
  • Gualdrini G. et al. (2011) A new cylindrical phantom for eye lens dosimetry development, Radiat. Meas. 46, 1231-1234. [CrossRef] [Google Scholar]
  • Gualdrini G. et al. (2013) Air kerma to Hp(3) conversion coefficients for photons from 10 keV to 10 MeV, calculated in a cylindrical phantom, Radiat. Prot. Dosim. 154 (4), 517-521. [CrossRef] [Google Scholar]
  • ICRP publication 74 (1995) Conversion coefficients for use in radiological protection against external radiation, ICRP. [Google Scholar]
  • ICRP publication 116 (2010) Conversion coefficients for radiological protection quantities for external radiation exposures, ICRP. [Google Scholar]
  • ICRP (2011) International Commission on Radiological Protection Statement on tissue reactions, ICRP ref 4825-3093-1464. [Google Scholar]
  • ICRU report 43 (1988) Determination of dose equivalents from external radiation sources- Part 2, Bethesda. [Google Scholar]
  • ICRU report 47 (1992) Measurement of dose equivalent from external photons and electron radiations, International commission on radiation units and measurements, Bethesda. [Google Scholar]
  • ICRU report 57 (1995) Conversion coefficients for use in radiological protection against external radiation, ICRU, Bethesda. [Google Scholar]
  • IEC 61526 (2005) Radiation protection instrumentation – Measurement of personal dose equivalents Hp(10) and Hp(0,07) for X, gamma, neutron and beta radiations – Direct reading personal dose equivalent meters and monitors. [Google Scholar]
  • IEC 61066 (2006) Thermo luminescence dosimetry systems for personal and environmental monitoring. [Google Scholar]
  • IEC 60846 (2007) Radiation protection instrumentation – Ambient and/or directional dose equivalent (rate) meters and/or monitors for beta, X and gamma radiation – Part 2: High range beta and photon dose and dose rate portable instruments for emergency radiation protection purposes. [Google Scholar]
  • IEC 62387 (2012) Radiation protection instrumentation – Passive integrating dosimetry systems for environmental and personal monitoring. [Google Scholar]
  • ISO 4037 (1999) X and gamma reference radiation for calibrating dosemeters and doserate meters and for determining their response as a function of photon energy- Part 3: Calibration of area and personal dosemeters and the measurement of their response as a function of energy and angle of incidence. [Google Scholar]
  • ISO 12794 (2000) Individual thermo luminescence dosemeters for extremities and eyes, ISO, Geneva. [Google Scholar]
  • ISO 14146 (2000) Criteria and performance limits for the periodic evaluation of processors of personal dosemeters for X and gamma radiation. ISO, Geneva. [Google Scholar]
  • ISO 29661 (2012) Reference radiation fields for radiation protection – Definitions and fundamental concepts, ISO, Geneva. [Google Scholar]
  • Mariotti F. et al. (2009) ORAMED project eye-Lens dosimetry, a new Monte Carlo approach to define the operation quantity Hp(3), ISSN/0393-3016, RT/2009/1/BAS ENEA Rome. [Google Scholar]
  • Nakashima E. et al. (2006) A reanalysis of atomic-bomb cataract data, 2000–2002: a threshold analysis, Health Phys. 90, 154-60. [CrossRef] [PubMed] [Google Scholar]
  • Pelowitz D.B. (2005) MCNPXTM User’s Manual Version 2.5.0. Los Alamos National Laboratory report LA-CP-05-036. [Google Scholar]
  • Salvat F. et al. (2006) “PENELOPE-2006. A Code System for Monte Carlo Simulation of Electron and Photon Transport”, OECD/NEA. [Google Scholar]
  • Worgul B.V. et al. (2007) Cataracts among Chernobyl Clean-up Workers: Implications Regarding Permissible Eye Exposure., Radiat. Res. 167, 233-243. [CrossRef] [PubMed] [Google Scholar]

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