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http://hdl.handle.net/11375/25894
Title: | Detection of Gadolinium in Liver and Kidney Phantoms Using X-Ray Fluorescence |
Authors: | Cyr, Mélodie |
Advisor: | Chettle, Dr. David McNeill, Dr. Fiona |
Department: | Radiation Sciences (Medical Physics/Radiation Biology) |
Keywords: | Medical Physics;Physics;Radiation;Gadolinium-Based Contrast Agents;Liver and Kidney;MCNP |
Publication Date: | 2020 |
Abstract: | Gadolinium (Gd) is commonly used in contrast agents (GBCAs) to improve magnetic resonance imaging. GBCAs improve tumor imaging and were thought to be stable and clear from the body through excretion after administration. However, they have been found to dissociate and remain in organs such as the liver and kidneys. In these studies, a non-invasive Cd-109 based K x-ray fluorescence (K-XRF) “Clover-Leaf” detection system to study liver and kidney Gd levels was investigated to improve the minimum detection limit (MDL). Two Cd-109 sources, one with a relatively low activity of 0.78 GBq and a second high activity source of 5 GBq irradiated a human torso water phantom containing liver and kidney phantoms with Gd concentrations ranging from 0-100 ppm. The MDL was calculated from two different time measurements 5 hours (weak source) and 30 minutes (strong source). In addition, liver and kidney phantom measurements with overlaying tissue thicknesses from 6-26 mm were investigated. At present, the K-XRF detection system is able to detect the Gd in each phantom with both sources. The MDL for the liver and kidney with the weaker source is 2.95 ppm and 3.60 ppm, respectively. The MDL for the stronger source is 3.61 ppm and 3.87 ppm, respectively. The overlaying tissue thickness MDLs decreased exponentially since the thickness increased which increases the scattering and attenuation. Simulations with MCNP successfully modelled the experiments. MCNP simulations of the kidney with varying Gd concentrations in the cortex and medulla suggest that the XRF measurement is not sensitive to the Gd distribution in the phantom. To conclude, this detection system can measure Gd in liver and kidney phantoms and has low MDLs. Future work should focus on varying the detection capabilities, measuring the effects to the organs at risk, possible clinical trials, and improving the MCNP model and peak extraction. |
URI: | http://hdl.handle.net/11375/25894 |
Appears in Collections: | Open Access Dissertations and Theses |
Files in This Item:
File | Description | Size | Format | |
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Cyr_Mélodie_N_202009_MScRadiationSciencesMedicalPhysics.pdf | 2.85 MB | Adobe PDF | View/Open |
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