Uranium in Bone: Metabolic and Autoradiographic Studies in the Rat

Priest, N.D.; Howells, G.R.; Green, D.; Haines, Jackie

doi:10.1177/096032718200100202

Cited by 39 publications

(17 citation statements)

References 14 publications

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“…This tendency is indicated graphically in Figure 1 where the percentage change in the 241Am content of the different bone/bone groups (excluding the skull and mandibles) is shown as a function of its concentration in them at 1 day post-injection. However, the tendency is not marked (P = 0.11) as it is for some other radionuclides, eg, 233U (Priest et al, 1982), suggesting that systemic recycling of resorbed 241Am such as would tend to produce a uniform distribution of the radionuclide throughout the skeleton occurs only slowly if at all.…”

Section: Resultsmentioning

confidence: 64%

“…with osteoblasts. This may be regarded as surprising as the odontoblast, a similar cell, seems to accumulate 241Am, (Hammarstr6m & Nilsson, 1970) but is consistant with the findings for other actinide elements such as plutonium and uranium, (Priest et al, 1982).…”

Section: Resultsmentioning

confidence: 83%

“…The present studies, which include high resolution autoradiography are intended to examine in detail the deposition, redistribution and retention characteristics of 24' Am in the rat skeleton. They are the second in a series which compares the patterns of uptake and redistribution in bone of different heavy metals, (see also Priest et al, 1982). Methods .…”

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confidence: 99%

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Pattern of Uptake of Americium-241 by the Rat Skeleton and its Subsequent Redistribution and Retention: Implications for Human Dosimetry and Toxicology

Priest¹,

Howells

Green

et al. 1983

Human Toxicology

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The distribution and retention of intravenously injected 241Am in the skeleton of the female rat has been investigated using autoradiographic and radiochemical techniques. The studies were designed to assess the dosimetric and toxicologic implications of an 241Am intake by man. They showed that in the rat approximately one third of the intravenously injected 241Am was deposited in the skeleton where it appeared to be retained with a long biological half-time. The studies also showed: 1241Am is initially deposited onto all types of bone surface including endosteal surfaces, periosteal surfaces and those of the vascular canals within cortical bone, but seems to be preferentially deposited onto those that are resorbing, 2 Bone accretion results in the burial of surface deposits of 241Am, 3 Bone resorption causes the removal of 241 Am from surfaces, 4 Resorbed 241Am is retained by phagocytic cells (probably macrophages) in the bone marrow, 5 The transfer of 241Am from the phagocytic cells in the marrow to adjacent bone surfaces seems to occur, (local recycling). 6 The possibility that some of the 241Am removed from the bone surfaces enters the blood and is redeposited in bone, (systemic recycling) cannot be dismissed These results show that 241Am deposition and redistribution in bone shares many characteristics with other 'bone surface-seeking radionuclides' typified by 239Pu. Consequently, it is suggested that a similar model to that used to calculate annual limits of intake for 239Pu in man would be suitable for the calculation of corresponding values for the 241Am isotopes.

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Section: Resultsmentioning

confidence: 64%

Section: Resultsmentioning

confidence: 83%

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Pattern of Uptake of Americium-241 by the Rat Skeleton and its Subsequent Redistribution and Retention: Implications for Human Dosimetry and Toxicology

Priest¹,

Howells

Green

et al. 1983

Human Toxicology

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“…Simulation model predictions of skeletal retention half-times were in closer agreement with injection studies in the human and rat than in the dog ( Table 7). The simulated clearance half-time, SO d, is somewhat longer than the value of 15-28 d for retention in humans (Struxness et al 1955;Adams and Spoor 1974) but is similar to the 40-to 45-d value observed in rats injected with uranyl nitrate (Priest et al 1982). Note that all these experiments were substantially shorter than the median lifetime of the species studied.…”

Section: In Viusupporting

confidence: 49%

A Model for Scaling the Results of U Excretion Rate Studies in Beagle Dogs to Man

Af¹,

Wc²,

Ff³

et al. 1989

Health Physics

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A biokinetic model was used to simulate retention and excretion of two forms of U: ammonium diuranate (ADU), a relatively soluble form, and U3O8, a relatively insoluble form. These two U forms represent those most likely to be encountered in the U milling industry. The simulation model was compared with results from a study of aerosols of commercial refined U ore inhaled by laboratory animals. Beagle dogs were exposed by inhalation to ADU aerosols to achieve a median initial body burden of 0.058 mg U kg-1 body weight (within a range of 0.016 to 0.64 mg U kg-1), or to U3O8 aerosols to achieve a median retained body burden of 0.28 mg U kg-1 (0.030-0.81 mg U kg-1). The simulation model accurately described the accumulation of nephrotoxic concentrations of U in kidneys of animals exposed to ADU. Very small fractions of the initial body burden of U3O8 were translocated to kidney, and these fractions were overestimated by the model. The model showed general agreement with results of other laboratory animal studies and with available information from human exposures to ADU, UF6, or U3O8.

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“…In addition, the toxicity effects of uranium on blood transportation [5], kidney [6,7], bones [8], lung [9], skin, reproduction system [10], or in the embryo development [11] have been recently studied at a cellular level. Investigations were carried out to study the impact of uranium on the local biodiversity due to contamination of the environment [12,13].…”

Section: Introductionmentioning

confidence: 99%

Complexation of U(VI) with highly phosphorylated protein, phosvitinA vibrational spectroscopic approach

Raff

Barkleit

et al. 2010

Journal of Inorganic Biochemistry

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Uranium in Bone: Metabolic and Autoradiographic Studies in the Rat

Cited by 39 publications

References 14 publications

Pattern of Uptake of Americium-241 by the Rat Skeleton and its Subsequent Redistribution and Retention: Implications for Human Dosimetry and Toxicology

Pattern of Uptake of Americium-241 by the Rat Skeleton and its Subsequent Redistribution and Retention: Implications for Human Dosimetry and Toxicology

A Model for Scaling the Results of U Excretion Rate Studies in Beagle Dogs to Man

Complexation of U(VI) with highly phosphorylated protein, phosvitinA vibrational spectroscopic approach

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