<p>This study presents a mineralogical and multielement assessment of kidney stones from Iraqi patients, a region where epidemiological and geochemical data are limited. A total of 52 stones were analysed by ICP-QQQ to determine the concentrations of 43 elements, including rare earth elements (REEs). A subset of 49 stones was further characterised by FTIR and XRPD to identify the mineral phases present. Four regional groups were identified, with most patients originating from the Sulaymaniyah region. Whewellite (calcium oxalate monohydrate) was the most common mineral phase (32.7%), followed by uricite (28.6%), while the remaining samples exhibited mixed or layered compositions. Uricite stones were more frequent in women, older patients, and individuals from outside the Sulaymaniyah region, whereas whewellite-dominated stones were more common in men. Trace element concentrations varied by several orders of magnitude. Stones containing whewellite and mixed calcium-bearing phases showed the highest enrichments in Ba, Sr, Zn, Pb, and Ti, whereas uricite stones consistently had low trace element contents. Several samples exhibited notable anomalies, including very high Zn (&gt; 1&#xa0;g/kg), Sr (&gt; 600&#xa0;mg/kg), and Pb (&gt; 30&#xa0;mg/kg) levels, indicating pronounced geochemical heterogeneity and possible environmental contributions. REE patterns were dominated by light REEs, except for two stones with pronounced Gd anomalies, likely reflecting prior exposure to Gd-based MRI contrast agents. Statistical analysis revealed clear geochemical signatures distinguishing whewellite-rich, mixed, and uricite stones. Overall, the results highlight strong links between mineralogy, trace element uptake, and environmental or physiological factors, emphasising the importance of integrated mineralogical and geochemical characterisation for understanding kidney stone formation in this region.</p>

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Multielement profiles and mineral phases of kidney stones in an Iraqi patient cohort

  • Željka Fiket,
  • Hana Fajković,
  • Asaad I. Mustafa,
  • Zhino N. Hussein,
  • Ibrahim M. J. Mohialdeen

摘要

This study presents a mineralogical and multielement assessment of kidney stones from Iraqi patients, a region where epidemiological and geochemical data are limited. A total of 52 stones were analysed by ICP-QQQ to determine the concentrations of 43 elements, including rare earth elements (REEs). A subset of 49 stones was further characterised by FTIR and XRPD to identify the mineral phases present. Four regional groups were identified, with most patients originating from the Sulaymaniyah region. Whewellite (calcium oxalate monohydrate) was the most common mineral phase (32.7%), followed by uricite (28.6%), while the remaining samples exhibited mixed or layered compositions. Uricite stones were more frequent in women, older patients, and individuals from outside the Sulaymaniyah region, whereas whewellite-dominated stones were more common in men. Trace element concentrations varied by several orders of magnitude. Stones containing whewellite and mixed calcium-bearing phases showed the highest enrichments in Ba, Sr, Zn, Pb, and Ti, whereas uricite stones consistently had low trace element contents. Several samples exhibited notable anomalies, including very high Zn (> 1 g/kg), Sr (> 600 mg/kg), and Pb (> 30 mg/kg) levels, indicating pronounced geochemical heterogeneity and possible environmental contributions. REE patterns were dominated by light REEs, except for two stones with pronounced Gd anomalies, likely reflecting prior exposure to Gd-based MRI contrast agents. Statistical analysis revealed clear geochemical signatures distinguishing whewellite-rich, mixed, and uricite stones. Overall, the results highlight strong links between mineralogy, trace element uptake, and environmental or physiological factors, emphasising the importance of integrated mineralogical and geochemical characterisation for understanding kidney stone formation in this region.