EDP Sciences logo
Authentification abonné
rechercher
Menu
Accueil Tous les numéros Volume 42 / Numéro 3 (July-September 2007) Radioprotection, 42 3 (2007) 315-335 Références
Accès gratuit
Numéro
Radioprotection
Volume 42, Numéro 3, July-September 2007
Page(s) 315 - 335
DOI https://doi.org/10.1051/radiopro:2007008
Publié en ligne 19 septembre 2007
  • Allen M.D., Briant J.K., Moss O.R., Rossignol E.J., Malhum D.D., Morgan L.G., Ryan J.L., Turcotte R.P. (1981) Dissolution characteristics of LMFBR fuel-sodium aerosols, Health Phys. 40, 183-193. [CrossRef] [PubMed] [Google Scholar]
  • André S., Métivier H., Lantenois G., Boyer M., Nolibé D., Masse R. (1987) Beryllium metal solubility in the lung, comparison of metal and hot-pressed forms by in-vivo and in vitro dissolution bioassays, Human Toxicol. 6, 233-240. [CrossRef] [MathSciNet] [Google Scholar]
  • André S., Métivier H., Auget D., Lantenois G., Boyer M., Masse R. (1989a) Lung dissolution of uranium tetrafluoride in rats and baboons. Comparison with dissolution by alveolar macrophages in culture and chemical dissolution, Human Toxicol. 8, 11-119. [CrossRef] [MathSciNet] [Google Scholar]
  • André S., Métivier H., Auget D., Lantenois G., Boyer M., Masse R. (1989b) Assesment of uranium tetrafluoride dissolution in the lung by in vivo and in vitro methods, Rad. Prot. Dosim. 26, 75-81. [Google Scholar]
  • Ansoborlo E., Claraz M., Hengé-Napoli M.H., Métivier H., Garden J., Cheynet M.C. (1995) Etude de l'exposition industrielle à des aérosols d'uranium dans le procédé d'enrichissement par Laser - Méthodes et Résultats, Radioprotection 30, 13-24. [CrossRef] [EDP Sciences] [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 huclear fuel fabrication in France, Health Phys. 82, 279-289. [CrossRef] [PubMed] [Google Scholar]
  • Bailey M.R., Kreyling W.G., André S., Batchelor A., Collier C.G., Drosselmeyer E., Ferron G.A., Foster P., Haider B., Hodgson A., Masse R., Métivier H., Morgan A., Müller H.L., Patrick G., Pearman I., Pickering S., Ramsden D., Strirling C., Talbot R.J. (1989) An interspecies comparison of the lung clearance of inhaled monodisperse cobalt oxide particles part I: objectives and summary results, J. Aerosol Sci. 20, 169-188. [CrossRef] [Google Scholar]
  • Bair W.J., Park J.F. (1968) Comparative deposition of four types of plutonium dioxides inhaled bu dogs, In Proceedings of the 1st international congress of radiation protection, Rome, September 5-10, 1966. Pergamon Press, Oxford–New-York. [Google Scholar]
  • Bair W.J., Métivier H., Park J.F. (1980) Comparison of early mortality in baboons and dogs after inhalation of 239PuO2, Radiat. Res. 82, 588-610. [CrossRef] [PubMed] [Google Scholar]
  • Bair W.J., Park J.F., Dagle G.E., James A.C. (1989) Overview of biological consequences of exposure to plutonium and higher actinides, Rad. Prot. Dosim. 26, 125-135. [Google Scholar]
  • Breitenstein B.D., Durbin P.W., Goans R.E., Guilmette R., Russell J.J., Toohey R.E. (2007) The NCRP Radionuclide Dosimetry Models for Wounds, NCRP report, à paraître. [Google Scholar]
  • Carter M.W. (1995) Is measurement of transportability class of inhaled material by in vitro dissolution satisfactory? Health Phys. 69, 549-552. [CrossRef] [PubMed] [Google Scholar]
  • CEA (2005) L'Energie nucléaire du futur: quelles recherches pour quels objectifs? Commissariat à l'énergie atomique, e-den, une monographie de la Direction de l'énergie nucléaire. CEA Saclay et Groupe Moniteur, Paris, ISBN 2-281-11307-8. [Google Scholar]
  • Chazel V., Houpert P., Ansoborlo E. (1998) Effect of U3O8 specific surface area on in vitro dissolution, biokinetics, and dose coefficients, Rad. Prot. Dosim. 79, 39-42. [Google Scholar]
  • Cooke N., Holt F.B. (1974) The solubility of some uranium compounds in simulated lung fluid, Health Phys. 27, 69-77. [CrossRef] [PubMed] [Google Scholar]
  • Diamond G.L. (1989) Biological consequences of exposure to soluble forms of uranium, Radiat. Prot. Dosim. 26, 23-33. [Google Scholar]
  • Dilley J.V. (1970) Effect of DTPA on inhaled 239PuF4 in beagles, Pacific Northwest Laboratory annual report for 1968 to the USAEC Division of biology and medicine, BNWL-1050, vol 1, part 1, p5.14-5.17. [Google Scholar]
  • Durbin P. (1960) Metabolic characteristics within a chemical family, Health Phys. 2, 225-238. [CrossRef] [PubMed] [Google Scholar]
  • Durbin P. (1973) Metabolism and biological effects of the transplutonium elements, In Uranium, Plutonium Transplutonic Elements, H.C.Hodge, J.N.Stannard, J.B.Hursh (Eds). Springer-Verlag, Berlin, pp. 739-896. [Google Scholar]
  • Durbin (2006) Actinides in animals and man, 3339-3440. [Google Scholar]
  • Eidson A.F. (1994) The effect of solubility on inhaled uranium compound and clearance; a review, Health Phys. 45, 1023-1037. [Google Scholar]
  • Eidson A.F., Mewhinney J.A. (1983) In vitro dissolution of respirable aerosols of industrial uranium and plutonium mixed-oxide nuclear fuelss, Health Phys. 45, 1023-1037. [CrossRef] [PubMed] [Google Scholar]
  • Fleischer R.L. (1975) On the "dissolution" of respirable PuO2 particles, Health Phys. 29, 69-73. [CrossRef] [PubMed] [Google Scholar]
  • Fleischer R.L., Raabe O.G. (1977) Fragmentation of respirable PuO2 in water by alpha decay - A mode of dissolution, Health Phys. 32, 253-257. [CrossRef] [PubMed] [Google Scholar]
  • Fleischer R.L., Raabe O.G. (1978) On the mechanisms of "dissolution" in liquids of PuO2 by alpha decay, Health Phys. 35, 545-548. [CrossRef] [PubMed] [Google Scholar]
  • Gamble J.L. (1967) Chemical anatomy, Physiology and pathology of extracellular fluid, 8th edn. Harvard University Press, pp. 4-11. [Google Scholar]
  • GLOBAL (2003) Proceedings of GLOBAL 2003, Atoms for Prosperity: Updating Eisenhower's Global Vision for Nuclear Energy, New Orleans, Louisiana, November 16-20, 2003. ISBN 0-89448-677-2 [Google Scholar]
  • GLOBAL (2005) International conference GLOBAL 2005, Nuclear Energy Systems for future generation adn global sustainability, Tsukuba, Japan, October 9-13, 2005. [Google Scholar]
  • Guilmette R.A., Griffith W.C., Hickman A.W. (1989) Intake assessment for workers who have inhaled 238Pu aerosols, Rad. Prot. Dosim. 53, 127-131. [Google Scholar]
  • Hamilton J.G. (1948) Medical and Health Physics Quaterly Report, UCRL-41, University of Califonia, Radiation Laboratory, p. 15. [Google Scholar]
  • Hengé-Napoli M.H., Ansoborlo E., Donnadieu-Claraz, Berry J.P., Gibert R., Pradal B. (1994) Solubility and transferability of several industrial forms of uranium oxides, Rad. Prot. Dosim. 53, 157-161. [Google Scholar]
  • ICRP Publication 66 (1994a) Human respiratory tract model for radiological protection, Ann. ICRP 24(1-3). [Google Scholar]
  • ICRP Publication 67 (1994b) 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 68 (1995a) Dose coefficients for intakes of radionuclides by workers, Ann. ICRP 24(4). [Google Scholar]
  • ICRP Publication 69 (1995b) Age-dependent doses to members of the public from intake of radionuclides: Part 3 Ingestion dose coefficients, Ann. ICRP 25(1). [Google Scholar]
  • ICRP Publication 100 (2007) Human alimentary tract model for radiological protection, Ann. ICRP 36(1-2). [Google Scholar]
  • Kanapilly G.M., Raabe O.G., Goh C.H.T., Chimenti R.H. (1973) Measurement of in vitro dissolution of aerosol particles by comparisons to in vivo dissolution in the lower respiratory tract after inhalation. Health Phys. 24, 497-507. [CrossRef] [PubMed] [Google Scholar]
  • Lanz H., Scott K.G., Crowley J., Hamilton J.G. (1946) The metabolism of Thorium, Protactinium and Neptunim in the rat, USAEC MDDC-648 (CH-3606) [Google Scholar]
  • Lataillade G., Verry M., Rateau G., Métivier H., Masse R. (1995) translocation of plutonium from rat and monkey lung after inhalation of industrial plutonium oxide and mixed uranium and plutonium oxide, Int. J. Radiat Biol. 67, 3,373-380. [Google Scholar]
  • Lirsac P.N., Nolibé D., Métivier H. (1989) Immobilization of alveolar macrophages for measurement of in vitro dissolution of aerosols particles, Int. J. Radiat. Biol. 56, 1011-1021. [CrossRef] [PubMed] [Google Scholar]
  • Mc Donald K.E., Dilley J.V., Sanders C.L., Mahaffey J.A. (1979) The influence of DTPA on the metabolism of inhaled 239PuF4 in Beagles, Health Phys. 36, 632-635 [PubMed] [Google Scholar]
  • Masse R., Métivier H. (1990) Intérêt du primate pour l'évaluation de la pathologie pulmonaire, Pathol. Biol. 8, 193-196. [Google Scholar]
  • Masse R., Métivier H., Guillaumont R. (1973) Fixation osseuse des terres rares et des éléments transuraniens. Colloques Internationaux CNRS N° 30, « Physico-chimie et cristallographie des apatites d'intérêt biologique », 10-15 septembre 1973, pp. 441-450. [Google Scholar]
  • Métivier H. (1976) Devenir biologique des mélanges d'aérosols d'oxyde de sodium et de plutonium, Radioprotection 11, 271-278 [Google Scholar]
  • Métivier H. (1979) Devenir biologique des transuraniens inhalés, Radioprotection 14, 19-39. [Google Scholar]
  • Métivier H. (1989) Physico-chimie et devenir biologique des radioéléments de l'industrie nucléaire, Revue Générale Nucléaire 4, 314-317. [Google Scholar]
  • Métivier H., Masse R. (1986) Données nouvelles sur la biologie des actinides - Conséquences en matière de radioprotection, Journal of the Less Common Metals 122, 475-485. [CrossRef] [Google Scholar]
  • Métivier H., Masse R., Nénot J.C., Nolibé D., Lafuma J. (1976) Etude expérimentale de la contamination par un mélange issu de la combustion du sodium en présence d'oxyde de plutonium, IAEA-SR-6/37, pp. 107-117. [Google Scholar]
  • Métivier H et al. (1980) Experimental study of respiratory contamination by a mixed oxide aerosols formed from the combustion of a plutonium magnesium alloy, Health Phys. 38, 769-776. [CrossRef] [PubMed] [Google Scholar]
  • Métivier H., Masse R., Lafuma J. (1983) Metabolism of plutonium introduced as tri-n-butylphosphate complex in the rat and removal attempts by DTPA, Health Phys. 44, 623-634. [CrossRef] [PubMed] [Google Scholar]
  • Métivier H., Piechowski J., Duserre C., Rateau G., Legendre N., Menoux B., Masse R. (1989) Biological behaviour of plutonium inhaled by baboons as plutonium n-tributylphosphate complex. Comparison with ICRP models, Rad. Prot. Dosim. 26, 287-291. [Google Scholar]
  • Mewhinney J.A., Muggenburg B.A., McClellan R.O., Miglio J.J. (1976) The effect of varying physical and chemical characteristics of inhaled plutonium aerosols on metabolism and excretion, In Diagnosis and Treatment of Incorporated Radionuclides, IAEA, Vienna, pp. 87-97. [Google Scholar]
  • Morgan A., Black A., Knight D., Moores S.R. (1988) The effect of firing temperature on the lung retention and translocation of Pu following the inhalation of 238PuO2 and 239PuO2 by CBA/H mice, Health Phys. 54, 301-310. [CrossRef] [MathSciNet] [PubMed] [Google Scholar]
  • Moody J.C., Stradling G.N., Britcher A.R. (1994) Biokinetics of the industrial plutonium nitrate materials: implications for human exposure, Rad. Prot. Dosim. 53, 169-172. [Google Scholar]
  • Neck V., Altmeier M., Müller R., Bauer A., Fanghanel T., Kim J.I. (2003) Solubility of cristallin thorium dioxide, Radiochim. Acta 91, 253-262. [CrossRef] [Google Scholar]
  • Nolibé D., Duserre C., Gil I., Rateau G., Métivier H. (1989) Biological behaviour of plutonium given as a trilaurylamine complex. Comparison with plutonium-tributylphosphate, Rad. Prot. Dosim. 26, 303-306. [Google Scholar]
  • OCDE (2004) NEA N° 5427, Pyrochemical separations in nuclear applications, A status report. [Google Scholar]
  • OCDE (2005) NEA N° 5419, Fuels and materials for transmutation, A status report. [Google Scholar]
  • OCDE (2006) NEA N° 6051, Besoins de recherche et développement pour les systèmes nucléaires actuels et futurs. [Google Scholar]
  • Ogawa T., Crawford D., Konings R.J.M., S. Pillon S., Schram R.P.C., Verwerft M., J. Wallenius J. (2005) State-of-art technology of fuels for burning minor actinides, An OECD/NEA study, Proceeding of Global 2005, Tsukuba, Japan, Oct. 9-13, Paper n° 316. [Google Scholar]
  • Pillon S. (2004) ouvrage collectif dirigé par S. Pillon, Synthèse sur les combustibles et cibles de transmutation, CEA/DEN/CAD/DEC/DIR04/002. [Google Scholar]
  • Poncy J.L., Métivier H., Dhilly M., Verry M., Masse R. (1992) In vitro dissolution of uranium oxide by baboon alveolar macrophages, Env. Health Persp. 97, 127-130. [CrossRef] [Google Scholar]
  • Ralston L.G., Cohen N., Bjattacharyya M.H., Larsen R.P., Ayres L., Oldham R.D., Moretti E.S. (1986) The metabolism and gastrointestinal absorption of neptunium and protactinium in adult baboons, in Speciation of fission and activation products in the environment, R.A. Bulman, J.R. Cooper (Eds). Elsevier, Oxford, p. 191. [Google Scholar]
  • Ramounet 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 in the values of the dose per unit of intake, Rad. Prot. Dosim. 105, 153-156. [Google Scholar]
  • Rhoads K., Killand B.W., Mahaffey J.A., Sanders C.L. (1986) Lung clearance and translocation of 239Pu and 244Cm in rats following inhalation individually or as a mixed oxide, Health Phys. 51, 633-640. [CrossRef] [PubMed] [Google Scholar]
  • Sanders C.L. (1972) Deposition patterns and the toxicity of transuranium elemenbts in lung, Health Phys. 22, 607-615. [CrossRef] [PubMed] [Google Scholar]
  • Sato H., Yamada Y., Ishigure N., Nakano T., Enomoto H., Takahashi S., Kubota Y., Inaba J. (1999) Retention, Excretion and Translocation of 239Pu in rats following inhalation of 239Pu02 calcined at 1150 and 400°C., J. Rad. Res. 40, 197-204. [CrossRef] [Google Scholar]
  • Stradling G.N., Loveless B.W., Ham G.J., Smith H. (1978) the biological solubility in the rat of plutonium present in mixed plutonium-sodium aerosols, Health Phys. 35, 229-235. [CrossRef] [PubMed] [Google Scholar]
  • Stradling G.N., Stather J.W., Gray S.A., Moody, J.C., Bailey M.R., Hodgson, A., Collier C. (1987) Studies on the metabolic behaviour of industrial actinide-bearing aerosols after deposition in the rat lung: An experimental basis for interpretating chest monitoring data and assessing limits on intake for workers, Human Toxicology 6, 365-375. [CrossRef] [PubMed] [Google Scholar]
  • Thompson R.C. (1989) Life-span effects of ionizing radiation in the beagle dog, Pacific Northwest National Laboratory, Richland, WA 9352, pp. 31-57. [Google Scholar]
  • USDOE (2006) Report on basic reasearch needs for advanced nuclear energy systems, Office of basic energy sciences, USDOE, October 2006. [Google Scholar]

Les statistiques affichées correspondent au cumul d'une part des vues des résumés de l'article et d'autre part des vues et téléchargements de l'article plein-texte (PDF, Full-HTML, ePub... selon les formats disponibles) sur la platefome Vision4Press.

Les statistiques sont disponibles avec un délai de 48 à 96 heures et sont mises à jour quotidiennement en semaine.

Le chargement des statistiques peut être long.