The radioisotopes of ruthenium (Ru-103 and Ru-106) are abundant fission products and represent a radiological risk for the population in case of nuclear accidents. Few biokinetic studies have been performed on humans up to now and consequently the current model recommended by ICRP for ruthenium is derived mainly by extrapolation from animal data. The stable isotope Ru-101 and proton activation analysis have been used to study the biokinetics of Ru in blood plasma samples taken during 8 studies in three healthy volunteers. The results obtained demonstrated that complexed Ru (in the form of citrate Ru(IV) complexes) is cleared from blood plasma very rapidly (characteristic half time of 17+/-2 min), while inorganic Ru remains longer in the systemic circulation, and is transferred to other organs and/or excreted with a biological half time of 23+/-2 h . Good reproducibility of the clearance curves indicated no evidence of inter- or intra-individual variability when the same Ru solution was injected in repeated experiments to different subjects.
Influence of the chemical form on the plasma clearance of ruthenium in humans / I. Veronese, A. Giussani, M.C. Cantone, C. Birattari, M. Bonardi, F. Groppi, V. Hollriegl, P. Roth, E. Werner. - In: APPLIED RADIATION AND ISOTOPES. - ISSN 0969-8043. - 60:1(2004), pp. 7-13.
Influence of the chemical form on the plasma clearance of ruthenium in humans
I. VeronesePrimo
;A. GiussaniSecondo
;M.C. Cantone;C. Birattari;M. Bonardi;F. Groppi;
2004
Abstract
The radioisotopes of ruthenium (Ru-103 and Ru-106) are abundant fission products and represent a radiological risk for the population in case of nuclear accidents. Few biokinetic studies have been performed on humans up to now and consequently the current model recommended by ICRP for ruthenium is derived mainly by extrapolation from animal data. The stable isotope Ru-101 and proton activation analysis have been used to study the biokinetics of Ru in blood plasma samples taken during 8 studies in three healthy volunteers. The results obtained demonstrated that complexed Ru (in the form of citrate Ru(IV) complexes) is cleared from blood plasma very rapidly (characteristic half time of 17+/-2 min), while inorganic Ru remains longer in the systemic circulation, and is transferred to other organs and/or excreted with a biological half time of 23+/-2 h . Good reproducibility of the clearance curves indicated no evidence of inter- or intra-individual variability when the same Ru solution was injected in repeated experiments to different subjects.
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