Abstract
We have analyzed the urinary excretion data from eight male workers following an acute intake of tritiated water (HTO) and assessed the dose contribution from organically bound tritium (OBT) in the body. The individuals affected increased their fluid intakes during the first month or more post-exposure, to accelerate the turnover of tritium in the body water for dose mitigation purposes. The volumes of cumulative 24 h urine samples were similar to Reference Man in the latter part of the study (100-300 d post-exposure). The workers` urine samples were analyzed for total tritium up to 300 d post-exposure. The results suggest that a measurement of the tritium activity per unit mass of organic matter in urine can provide an assessment of the specific activity of tritium in the organic fraction of the soft tissue, providing an equilibrium condition exists. A mathematical model is proposed to estimate the dose increase from the retained OBT by examining the kinetics of total tritium excretion in urine. The model accounts for the variable rates of fluid intake. The influence of measurement errors and the limited duration of the study (0-300 d post-exposure) on the OBT dose contribution was assessed through statistical analysis, while the role
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Trivedi, A;
Richardson, R B;
Galeriu, D
[1]
- Atomic Energy of Canada Ltd., Chalk River, ON (Canada). Chalk River Nuclear Labs.
Citation Formats
Trivedi, A, Richardson, R B, and Galeriu, D.
Dose from organically bound tritium after an acute tritiated water intake in humans.
Canada: N. p.,
1995.
Web.
Trivedi, A, Richardson, R B, & Galeriu, D.
Dose from organically bound tritium after an acute tritiated water intake in humans.
Canada.
Trivedi, A, Richardson, R B, and Galeriu, D.
1995.
"Dose from organically bound tritium after an acute tritiated water intake in humans."
Canada.
@misc{etde_217509,
title = {Dose from organically bound tritium after an acute tritiated water intake in humans}
author = {Trivedi, A, Richardson, R B, and Galeriu, D}
abstractNote = {We have analyzed the urinary excretion data from eight male workers following an acute intake of tritiated water (HTO) and assessed the dose contribution from organically bound tritium (OBT) in the body. The individuals affected increased their fluid intakes during the first month or more post-exposure, to accelerate the turnover of tritium in the body water for dose mitigation purposes. The volumes of cumulative 24 h urine samples were similar to Reference Man in the latter part of the study (100-300 d post-exposure). The workers` urine samples were analyzed for total tritium up to 300 d post-exposure. The results suggest that a measurement of the tritium activity per unit mass of organic matter in urine can provide an assessment of the specific activity of tritium in the organic fraction of the soft tissue, providing an equilibrium condition exists. A mathematical model is proposed to estimate the dose increase from the retained OBT by examining the kinetics of total tritium excretion in urine. The model accounts for the variable rates of fluid intake. The influence of measurement errors and the limited duration of the study (0-300 d post-exposure) on the OBT dose contribution was assessed through statistical analysis, while the role of direct OBT excretion in urine was estimated by using metabolic models. Based on the time series of tritium concentration in urine, the average dose increase to the workers from the metabolised OBT was calculated as 6.2 {+-} 1.3% of the HTO dose. 78 refs., 36 tabs., 11 figs.}
place = {Canada}
year = {1995}
month = {Oct}
}
title = {Dose from organically bound tritium after an acute tritiated water intake in humans}
author = {Trivedi, A, Richardson, R B, and Galeriu, D}
abstractNote = {We have analyzed the urinary excretion data from eight male workers following an acute intake of tritiated water (HTO) and assessed the dose contribution from organically bound tritium (OBT) in the body. The individuals affected increased their fluid intakes during the first month or more post-exposure, to accelerate the turnover of tritium in the body water for dose mitigation purposes. The volumes of cumulative 24 h urine samples were similar to Reference Man in the latter part of the study (100-300 d post-exposure). The workers` urine samples were analyzed for total tritium up to 300 d post-exposure. The results suggest that a measurement of the tritium activity per unit mass of organic matter in urine can provide an assessment of the specific activity of tritium in the organic fraction of the soft tissue, providing an equilibrium condition exists. A mathematical model is proposed to estimate the dose increase from the retained OBT by examining the kinetics of total tritium excretion in urine. The model accounts for the variable rates of fluid intake. The influence of measurement errors and the limited duration of the study (0-300 d post-exposure) on the OBT dose contribution was assessed through statistical analysis, while the role of direct OBT excretion in urine was estimated by using metabolic models. Based on the time series of tritium concentration in urine, the average dose increase to the workers from the metabolised OBT was calculated as 6.2 {+-} 1.3% of the HTO dose. 78 refs., 36 tabs., 11 figs.}
place = {Canada}
year = {1995}
month = {Oct}
}