Incertitudes sur les expositions, les niveaux de contamination et les doses après inhalation d’actinides

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Numéro		Radioprotection Volume 41, Numéro 3, July-September 2006


Page(s)		287 - 308
DOI		https://doi.org/10.1051/radiopro:2006006
Publié en ligne		14 septembre 2006

Aden J., Scott B.R. (2003) Modeling variability and uncertainty associated with inhaled weapons-grade PuO₂, Health Phys. 84, 726-736. [CrossRef] [PubMed] [Google Scholar]
Ansoborlo E., Chazel V., Hengé-Napoli M.H., Pihet P., Rannou A., Bailey M.R., Stradling N. (2002) Determination of the physical and chemical properties, biokinetics, and dose coefficients of uranium compounds handled during nuclear fuel fabrication in France, Health Phys. 82, 279-289. [CrossRef] [PubMed] [Google Scholar]
Ansoborlo E., Bérard P., Eckerman K.F., Berkovski V., Birchall A., Fry F.A., Guilmette R.A., Miller G., Ishigure N., Lipsztein J.L., Noβke D. (2003) Review of methods and computer codes for bioassay data interpretation, Radiat. Prot. Dosim. 105, 341-346. [Google Scholar]
Apostoaei A.I., Miller L.F. (2004) Uncertainties in dose coefficients from ingestion of ¹³¹I, ¹³⁷Cs and ⁹⁰Sr, Health Phys. 86, 460-482. [CrossRef] [PubMed] [Google Scholar]
Bailey B.R., Eckerman K.F., Townsend L.W. (2003) An analysis of a puncture wound case with medical intervention, Radiat. Prot. Dosim. 105, 509-512. [Google Scholar]
Blanchin N., Desloires S., Grappin L., Guillermin A.M., Lafon P., Miele A. (2004) Protocoles de prise en charge des incidents d'expositions internes au plutonium dans un service médical d'installation nucléaire de base : élaboration - mise en place - évaluation - validation de 1996 à 2002, Radioprotection 39, 59-76. [Google Scholar]
Blanchin N., Fottorino R., Grappin L., Guillermin A.M., Lafon P., Mièle A., Ruffin M. (2005) Surveillance systématique des expositions aux transuraniens par les analyses radiotoxicologiques des selles: retour d’expérience, intérêt et perspectives, Radioprotection 40, 231-243. [CrossRef] [EDP Sciences] [Google Scholar]
Bolch W.E., Farfan E.B., Huh C.H., Huston T.E., Bolch W.E. (2001) Influences of parameter uncertainties within the ICRP-66 respiratory tract model: Particle deposition, Health Phys. 81, 378-394. [Google Scholar]
Bolch W.E., Huston T.E., Farfan E.B., Vernetson W.G., Bolch W.E. (2003) Influences of parameter uncertainties within the ICRP-66 respiratory tract model: Particle clearance, Health Phys. 84, 421-435. [Google Scholar]
Carbaugh E.H., Bihl D.E., Sula M.J. (1991) Long-term follow-up of HAN-1, an acute plutonium oxide inhalation case, Radiat. Prot. Dosim. 38, 99-104. [Google Scholar]
Carbaugh E.H., La Bone T.R. (2003) Two case studies of highly insoluble plutonium inhalation with implications for bioassay, Radiat. Prot. Dosim. 105, 133-138. [Google Scholar]
Dorrian M.D., Bailey M.R. (1995) Particle size distributions of radioactive aerosols measured in the workplaces, Radiat. Prot. Dosim. 60, 119-133. [Google Scholar]
Dunning D.E., Schwarz G. (1980) Variability of human thyroid characteristics and estimates of dose for ingested 131I, Health Phys. 40, 661-675. [CrossRef] [Google Scholar]
Farfan E.B., Huston T.E., Bolch W.E., Vernetson W.G., Bolch W.E. (2003) Influences of parameter uncertainties within the ICRP-66 respiratory tract model: Regional tissue doses for ²³⁹PuO₂ and ²³⁸UO₂/²³⁸U₃O₈, Health Phys. 84, 436-450. [CrossRef] [PubMed] [Google Scholar]
Fritsch P. (2004) Uncertainties in doses due to the number of aerosol particles: study on ²³⁹PuO₂ using default parameters for workers, Health Phys. 87, 416-422. [CrossRef] [PubMed] [Google Scholar]
Fritsch P. (2005) Uncertainties in doses calculated according to ICRP recommendations after inhalation of ²³⁹Puo₂ and early chest monitoring. Congrès Individual Monitoring, Vienne, Autriche, avril 2005, Radiat. Prot. Dosim. (sous presse, 2006). [Google Scholar]
Fritsch P. (2006) Uncertainties in aerosol deposition within the respiratory tract calculated according to ICRP recommendations: a study in adults. Health Phys. 90, 114-126. [CrossRef] [PubMed] [Google Scholar]
Fritsch P., Guillet K. (2002) Granulometry of aerosols containing transuranium elements at the work place: an estimate using autoradiographic analysis, Ann. Occupl. Hyg. 46 (sup1), 292-295. [Google Scholar]
Fritsch P., Dudoignon N., Guillet K., Oghiso Y., Morlier J.P., Monchaux G. (2003a) Does DPUI calculated for inhaled actinide oxides actually reflect the risk of malignant lung tumour induction? Radiat. Prot. Dosim. 105, 149-152. [Google Scholar]
Fritsch P., Champion C., Ménétrier F., Delforge J. (2003b) Uncertainties on the committed equivalent dose to the thyroid as a function of age for different iodine isotopes, Radiat. Prot. Dosim. 105, 247-250. [Google Scholar]
Fritsch P, Raynaud P, Blanchin N and Mièle A. (2006a) Limits of DPUI application associated with the number of particles within actinide aerosols. Présentation au congrès Internal dosimetry of radionuclides, Montpellier, octobre 2006, Radiat. Prot. Dosim. (à soumettre). [Google Scholar]
Fritsch P., Grappin L., Guillermin A.M., Fottorino R., Ruffin M., Mièle A. (2006b) Modelling of bioassay data from a Pu wound treated by repeated DTPA perfusions: biokinetics and dosimetric approaches. Présentation au congrès Internal dosimetry of radionuclides, Montpellier, octobre 2006, Radiat. Prot. Dosim. (à soumettre). [Google Scholar]
Hall R.M., Poda G.A., Fleming R.R., Smith J.A. (1978) A mathematical model for estimation of plutonium in the human body from urine data influenced by DTPA therapy, Health Phys. 34, 419-432. [CrossRef] [PubMed] [Google Scholar]
Hamby D.M., Benke R.R. (1999) Uncertainties of the iodine-131 ingestion dose conversion factor, Radiat. Prot. Dosim. 82, 245-256. [Google Scholar]
Harvey R.P., Hamby D.M. (2001) Uncertainty in particulate deposition for 1 µm AMAD particles in an adult lung model, Radiat. Prot. Dosim. 95, 239-247. [Google Scholar]
Harvey R.P., Hamby D.M., Benke R.R. (2003) Age-specific uncertainty of the ¹³¹I ingestion dose conversion factor, Health Phys. 84, 334-343. [CrossRef] [PubMed] [Google Scholar]
ICRP Publication 67 (1993) Age-dependent doses to members of the public from intake of radionuclides: Part 2, Ingestion dose coefficients, Ann. ICRP 23 (3-4). [Google Scholar]
ICRP Publication 66 (1994) Human respiratory tract model for radiological protection, Ann. ICRP 24 (1-3). [Google Scholar]
Layton D.W. (1993) Metabolically consistent breathing rates for use in dose assessments, Health Phys. 64, 23-36. [Google Scholar]
Leggett R.W., Eckerman K.F., Khokhryakov V.F., Suslova B.G., Krahenbuhl F.P., Miller S.C. (2005) Mayak worker study: an improved biokinetic model for reconstructing doses from internally deposited plutonium, Radiat. Res. 164, 111-122. [CrossRef] [PubMed] [Google Scholar]
Luciani A., Doerfel H., Polig E. (2003) Uncertainty analysis of the urinary excretion of plutonium, Radiat. Prot. Dosim. 105, 383-386. [Google Scholar]
Mièle A., Blanchin N., Raynaud P., Quesne B., Giraud J.M., Fottorino R., Bérard P., Ansoborlo E., Franck D., Blanchardon E., Challeton-de Vathaire C., Piechowski J., Fritsch P. (2006) MEDOR, a didactic tool to support interpretation of bioassay data after internal contamination by actinides. Présentation au congrès Internal dosimetry of radionuclides, Montpellier, octobre 2006, Radiat. Prot. Dosim. (à soumettre). [Google Scholar]
Piechowski J., Menoux B., Mièle A., Grappin L., Guillermin A.M., Fottorino R., Ruffin M. (2003) Implications du médecin du travail et de l’expert dans la gestion et la dosimétrie d’un incident de contamination : exemple d’une plaie contaminée par le plutonium, Radioprotection 38, 29-50. [CrossRef] [EDP Sciences] [Google Scholar]
Ramounet-Le Gall B., Fritsch P., Abram M.C., Rateau G., Grillon G., Guillet K., Baude S., Bérard P., Ansoborlo E., Delforge J. (2002) Mesure de paramètres spécifiques pour le calcul de dose après inhalation d’aérosols renfermant des éléments transuraniens, Can. J. Physiol. Pharmaco. 80, 727-732. [CrossRef] [Google Scholar]
Ramounet-Le Gall B., Rateau G., Abram M.C., Grillon G., Ansoborlo E., Bérard P., Delforge J., Fritsch P. (2003) In vivo measurement of Pu dissolution parameters of MOX aerosols and related uncertainties on DPUI values, Radiat. Prot. Dosim. 105, 153-156. [Google Scholar]

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