As part of the improvement of calibration techniques of in vivo counting, the Laboratory of Internal Dose Assessment of the Institute of Radiological Protection and Nuclear Safety has developed a computer tool, 'OEDIPE', to model internal contamination, to simulate in vivo counting and to calculate internal dose. The first version of this software could model sources located in a single organ. As the distribution of the contamination evolves from the time of intake according to the biokinetics of the radionuclide, a new facility has been added to the software first to allow complex heterogeneous source modelling and then to automatically integrate the distribution of the contamination in the different tissues estimated by biokinetic calcula...
Internal dose assessment can be derived from the measurement of retained activity in the whole body ...
This paper describes the Basic Radionuclide vAlue for Internal Dosimetry (BRAID) code, which was dev...
Major current efforts within Committee 2 of the International Commission on Radiological Protection ...
As part of the improvement of calibration techniques of in vivo counting, the Laboratory of Internal...
Recently developed biokinetic models of ICRP permit more realistic description of the behaviour of r...
International audienceTo improve calibration methods of in vivo counting, our laboratory has develop...
Internal doses are calculated on the basis of knowledge of intakes and/or measurements of activity i...
At radiation emergency with heavy internal-contamination, prompt estimation of doses at specific org...
International audienceInternal doses are calculated using biokinetic and dosimetric models. These mo...
As part of the improvement of calibration techniques for in vivo counting, the Laboratory of Interna...
This paper describes new biokinetic and dosimetric models, especially those being developed by ICRP ...
ABSTRACT: Radiation dosimetry is central to virtually all radiation safety applications, optimizatio...
Major current efforts within Committee 2 of the International Commission on Radiological Protection ...
CONRAD (Coordinated Network on Radiation Dosimetry) was an action funded by the European Commission ...
Internal dose assessment can be derived from the measurement of retained activity in the whole body ...
This paper describes the Basic Radionuclide vAlue for Internal Dosimetry (BRAID) code, which was dev...
Major current efforts within Committee 2 of the International Commission on Radiological Protection ...
As part of the improvement of calibration techniques of in vivo counting, the Laboratory of Internal...
Recently developed biokinetic models of ICRP permit more realistic description of the behaviour of r...
International audienceTo improve calibration methods of in vivo counting, our laboratory has develop...
Internal doses are calculated on the basis of knowledge of intakes and/or measurements of activity i...
At radiation emergency with heavy internal-contamination, prompt estimation of doses at specific org...
International audienceInternal doses are calculated using biokinetic and dosimetric models. These mo...
As part of the improvement of calibration techniques for in vivo counting, the Laboratory of Interna...
This paper describes new biokinetic and dosimetric models, especially those being developed by ICRP ...
ABSTRACT: Radiation dosimetry is central to virtually all radiation safety applications, optimizatio...
Major current efforts within Committee 2 of the International Commission on Radiological Protection ...
CONRAD (Coordinated Network on Radiation Dosimetry) was an action funded by the European Commission ...
Internal dose assessment can be derived from the measurement of retained activity in the whole body ...
This paper describes the Basic Radionuclide vAlue for Internal Dosimetry (BRAID) code, which was dev...
Major current efforts within Committee 2 of the International Commission on Radiological Protection ...