Detection of mercury in the kidney via source‐excited x‐ray fluorescence Conferences uri icon

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abstract

  • AbstractNon‐invasive detection of kidney Hg in vivo is important in order to prevent detrimental health effects in occupationally exposed persons. In this study, preliminary results of a 109Cd source‐based x‐ray fluorescence system for the detection of Hg in the kidney are presented. The system includes a single 50 mm diameter HPGe detector with a 109Cd source mounted on the detector face for backscatter measurement geometry. A detection limit of 3.9 ppm was obtained during a bare kidney phantom feasibility study. In order to simulate an in vivo measurement, kidney phantoms were also placed inside a water tank representing the torso. The detection limit was 5.0 ppm at 1 cm phantom depth, as measured to the phantom boundary. As expected, Hg sensitivity decreased with kidney depth owing to the attenuation of incident 109Cd γ‐rays and emitted characteristic Hg K x‐rays, so that at a phantom depth of 4 cm the detection limit was 44 ppm. Further improvements to the detection limit will allow future in vivo kidney Hg measurements of chronically exposed workers. Copyright © 2007 John Wiley & Sons, Ltd.

publication date

  • March 2007