The objective of this Task Group is the coordination of research studies on biokinetic models and the evaluation of the implications of new biokinetic models on dose assessment and safety standards. For this the new ICRP models, which will be used for a revision of ICRP Publications 30, 54, 68 and 78, are implemented into six different computer codes in five European countries and quality assured by intercomparison procedures. The work has started with the implementation of the new ICRP Alimentary Tract Model. New systemic models and the new NCRP wound model will follow. The work also includes the evaluation of experimental results in terms of formulation by the new model structures and a quality assurance of model formulation
As part of the improvement of calibration techniques of in vivo counting, the Laboratory of Internal...
International audienceInternal doses are calculated on the basis of knowledge of intakes and/or meas...
A Task Group within the ICRP Committees 2 and 3 is continuously working to improve absorbed dose est...
The objective of this Task Group is the coordination of research studies on biokinetic models and th...
The objective of this Task Group is the coordination of research studies on biokinetic models and th...
CONRAD (Coordinated Network on Radiation Dosimetry) was an action funded by the European Commission ...
The work of the Task Group 5.2 'Research Studies on Biokinetic Models' of the CONRAD project...
This paper describes new biokinetic and dosimetric models, especially those being developed by ICRP ...
The dosimetry of internal emitters is based on biokinetic and dosimetric models. Such models are dev...
International audienceInternal doses are calculated using biokinetic and dosimetric models. These mo...
The increasing use of tissue dosimetry estimated using pharmacokinetic models in chemical risk asses...
The increasing use of tissue dosimetry estimated using pharmacokinetic models in chemical risk asses...
The increasing use of tissue dosimetry estimated using pharmacokinetic models in chemical risk asses...
Thefocus of the work of Committee 2 of the International Commission on Radiological Protection (ICRP...
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...
International audienceInternal doses are calculated on the basis of knowledge of intakes and/or meas...
A Task Group within the ICRP Committees 2 and 3 is continuously working to improve absorbed dose est...
The objective of this Task Group is the coordination of research studies on biokinetic models and th...
The objective of this Task Group is the coordination of research studies on biokinetic models and th...
CONRAD (Coordinated Network on Radiation Dosimetry) was an action funded by the European Commission ...
The work of the Task Group 5.2 'Research Studies on Biokinetic Models' of the CONRAD project...
This paper describes new biokinetic and dosimetric models, especially those being developed by ICRP ...
The dosimetry of internal emitters is based on biokinetic and dosimetric models. Such models are dev...
International audienceInternal doses are calculated using biokinetic and dosimetric models. These mo...
The increasing use of tissue dosimetry estimated using pharmacokinetic models in chemical risk asses...
The increasing use of tissue dosimetry estimated using pharmacokinetic models in chemical risk asses...
The increasing use of tissue dosimetry estimated using pharmacokinetic models in chemical risk asses...
Thefocus of the work of Committee 2 of the International Commission on Radiological Protection (ICRP...
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...
International audienceInternal doses are calculated on the basis of knowledge of intakes and/or meas...
A Task Group within the ICRP Committees 2 and 3 is continuously working to improve absorbed dose est...