International audiencePhysicochemical properties of actinides highly influence internal intake and biodistribution. An a priori knowledge of the dissolution properties of compounds involved in accidental exposure would be of great help in early dose assessment. However, this information is rarely available, leading to difficulties in interpreting excretion data from contaminated victims.We developed an in vitro acellular assay to predict in vivo bioavailability of actinides and improve medical handling of the victims. Various actinides of different physicochemical properties were used to validate the reliability of the assay to mimic in vivo behavior of the contaminants. Our assay was designed as a dynamic muticompartmental system in which ...
The knowledge of the toxicokinetics of chemicals is an important prerequisite of biological monitori...
The assessment of arsenic (As) bioavailability from contaminated matrices is a crucial parameter for...
Improved understanding of chemical exposure in in vitro bioassays\ua0is required for quantitative in...
International audienceSpeciation of actinides, and more particularly bioligand-binding ability, infl...
International audienceIn case of accidental release of radionuclides into the environment, actinides...
An accidental inhalation of actinide nuclides, e.g. plutonium and americium, by 5 workers occurred d...
International audienceA major challenge in modelling the decorporation of actinides (An), such as am...
Human bioaccumulative potential is an important element in the risk assessment of chemicals. Due to ...
Actinides are heavy elements with no known physiological function in man, animals or plants. The act...
Transplutonium actinides are among the heaviest elements whose macroscale chemical properties can be...
Nominal effect concentrations from in vitro toxicity assays may lead to inaccurate estimations of in...
Exposure assessment in cell-based bioassays is challenging for ionizable organic chemicals (IOCs), b...
Abstract Human bioaccumulative potential is an impor-tant element in the risk assessment of chemical...
Actinides, such as uranium, plutonium, or americium, are radioactive metals with no natural biologic...
This study estimates in terms of amount and localisation the pulmonary retention of dissociated Pu/A...
The knowledge of the toxicokinetics of chemicals is an important prerequisite of biological monitori...
The assessment of arsenic (As) bioavailability from contaminated matrices is a crucial parameter for...
Improved understanding of chemical exposure in in vitro bioassays\ua0is required for quantitative in...
International audienceSpeciation of actinides, and more particularly bioligand-binding ability, infl...
International audienceIn case of accidental release of radionuclides into the environment, actinides...
An accidental inhalation of actinide nuclides, e.g. plutonium and americium, by 5 workers occurred d...
International audienceA major challenge in modelling the decorporation of actinides (An), such as am...
Human bioaccumulative potential is an important element in the risk assessment of chemicals. Due to ...
Actinides are heavy elements with no known physiological function in man, animals or plants. The act...
Transplutonium actinides are among the heaviest elements whose macroscale chemical properties can be...
Nominal effect concentrations from in vitro toxicity assays may lead to inaccurate estimations of in...
Exposure assessment in cell-based bioassays is challenging for ionizable organic chemicals (IOCs), b...
Abstract Human bioaccumulative potential is an impor-tant element in the risk assessment of chemical...
Actinides, such as uranium, plutonium, or americium, are radioactive metals with no natural biologic...
This study estimates in terms of amount and localisation the pulmonary retention of dissociated Pu/A...
The knowledge of the toxicokinetics of chemicals is an important prerequisite of biological monitori...
The assessment of arsenic (As) bioavailability from contaminated matrices is a crucial parameter for...
Improved understanding of chemical exposure in in vitro bioassays\ua0is required for quantitative in...