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Radiation Protection Dosimetry Advance Access published online on November 28, 2006
Radiation Protection Dosimetry, doi:10.1093/rpd/ncl411
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Published by Oxford University Press 2006

Micros 2005 Special Issue

RADIATION QUALITY OF TRITIUM

Jing Chen 1 *

1 Radiation Protection Bureau, Health Canada, Ottawa K1A 1C1, Canada

* To whom correspondence should be addressed.
Jing Chen, E-mail: jing_chen{at}hc-sc.gc.ca


  Abstract

Tritium occurs from both natural and manufactured processes. In the environment, tritium can exist in the form of tritiated water (HTO) and in an organic form known as organically-bound tritium (OBT). Although, the concentrations of environmental OBT are relatively low, there is concern that current risk factors may underestimate the risk from OBT. Because tritium poses an internal hazard at cellular levels, microdosimetric techniques provide suitable tools for the study of radiation quality of tritium. In this study, microdosimetric simulations are performed for tritium uniformly distributed in a medium, and for tritium bound to biologically critical sites of dimensions from 10 nm to 2 µm. Results of local energy density are different for these two cases in microscopic regions. Based on the spatial distribution of energy deposition, dose mean lineal energies are calculated for tritium in forms of HTO and OBT. The dose mean lineal energies of OBT are about a factor of 1.7 higher than those of HTO in a wide range of target dimensions of biological interest. The results are consistent with radiobiological findings that OBT is about twice as effective as that of HTO.


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