ABSTRACT
In this study 14 kidney stones (oxalate and phosphate stones) collected from two Sudanese hospitals Particle Induced X ray Emission (µ-PIXE). This technique was used to investigate the matrix as well as the trace element compositions of kidney stones on a microscopic scale using 1.5MeV proton energy. Significant differences in elements content across the groups were found by applying statistical methods. Trace elements such as P,Ca, Fe, Ni, Cu, Zn, Se, Sr, Br, and Pb showed a possible linear relationship of the mean profile for trace elements for each group of stones. This study shows that micro analysis of urinary stones can provide complementary information on patients' exposure to epidemiological risk factors such as geography, diet and drinking water.
Subject(s)
Kidney Calculi/chemistry , Metals, Heavy/analysis , Spectrometry, X-Ray Emission/methods , Climate , Drinking Water , Geography , Humans , Kidney Calculi/epidemiology , Metals, Heavy/toxicity , Molecular Probes , Risk Factors , Sudan/epidemiologyABSTRACT
The micro-PIXE and RBS techniques are used to investigate the matrix as well as the trace elemental composition of calcium-rich human tissues on a microscopic scale. This paper deals with the spatial distribution of trace metals in hard human tissues such as kidney stone concretions, undertaken at the nuclear microprobe (NMP) facility. Relevant information about ion beam techniques used for material characterization will be discussed. Mapping correlation between different trace metals to extract information related to micro-regions composition will be illustrated with an application using proton energies of 1.5 and 3.0 MeV and applied to a comparative study for human kidney stone concretions nucleation region analysis from two different population groups (Sudan and South Africa).