Urinary stones as a novel matrix for human biomonitoring of toxic and essential elements

Kuta, Jan; Smetanová, Soňa; Benová, Daniela; Kořistková, Tamara; Machát, Jiří

doi:10.1007/s10653-015-9691-2

Cited by 4 publications

(2 citation statements)

References 35 publications

(58 reference statements)

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“…Figure 1a and e presents the result of the correlation analysis for the CO, CA, UA, mixed CO and CA, and the mixed CO and UA stone groups, respectively. In the case of the CO stone group, Ca and Na exhibit a positive correlation (r = 0.48), likely attributed to their closely matched ionic radius (116 pm for Ca and 144 pm for Na) [54], This similarity enables Na to substitute for Ca in various rock-forming minerals, such as plagioclase feldspar (sodium-calcium feldspar series NaAl3Si3O8-CaAl2Si2O8) and pyroxene [55,56]. Ca shows a strong positive correlation with Zn (r = 0.66) in the CO stone group, suggesting that these elements may undergo thermodynamically favorable substitution processes or are easily absorbed into the oxalate crystal structure [41].…”

Section: Resultsmentioning

confidence: 97%

The key role of major and trace elements in the formation of five common urinary stones

Tian,

Han,

Zhang

et al. 2024

BMC Urol

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Background Urolithiasis has emerged as a global affliction, recognized as one of the most excruciating medical issues. The elemental composition of stones provides crucial information, aiding in understanding the causes, mechanisms, and individual variations in stone formation. By understanding the interactions between elements in various types of stones and exploring the key role of elements in stone formation, insights are provided for the prevention and treatment of urinary stone disease. Methods This study collected urinary stone samples from 80 patients in Beijing. The chemical compositions of urinary stones were identified using an infrared spectrometer. The concentrations of major and trace elements in the urinary stones were determined using Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES) and Inductively Coupled Plasma Mass Spectrometry (ICP-MS), respectively. The data were processed using correlation analysis and Principal Component Analysis (PCA) methods. Results Urinary stones are categorized into five types: the calcium oxalate (CO) stone, carbonate apatite (CA) stone, uric acid (UA) stone, mixed CO and CA stone, and mixed CO and UA stone. Ca is the predominant element, with an average content ranging from 2.64 to 27.68% across the five stone groups. Based on geochemical analysis, the high-content elements follow this order: Ca > Mg > Na > K > Zn > Sr. Correlation analysis and PCA suggested significant variations in the interactions between elements for different types of urinary stones. Trace elements with charges and ionic structures similar to Ca may substitute for Ca during the process of stone formation, such as Sr and Pb affecting the Ca in most stone types except mixed stone types. Moreover, the Mg, Zn and Ba can substitute for Ca in the mixed stone types, showing element behavior dependents on the stone types. Conclusion This study primarily reveals distinct elemental features associated with five types of urinary stones. Additionally, the analysis of these elements indicates that substitutions of trace elements with charges and ion structures similar to Ca (such as Sr and Pb) impact most stone types. This suggests a dependence of stone composition on elemental behavior. The findings of this study will enhance our ability to address the challenges posed by urinary stones to global health and improve the precision of interventions for individuals with different stone compositions.

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Section: Resultsmentioning

confidence: 97%

The key role of major and trace elements in the formation of five common urinary stones

Tian,

Han,

Zhang

et al. 2024

BMC Urol

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“…Highlighting the presence or the absence of some elements in biological tissues may be of great interest in medicine in the sense that it can help in diagnosis [25][26][27][28][29][30][31][32]. Indeed, the presence of lead may indicate a diagnosis of saturnism [33] while accumulation of copper may be related to Wilson's disease [34].…”

Section: Introductionmentioning

confidence: 99%

The crucial contribution of X-ray fluorescence spectroscopy in medicine

Bazin¹,

Foy²,

Réguer³

et al. 2022

Comptes Rendus. Chimie

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This contribution tries to indicate to the clinician what kind of information can be investigated through X-ray fluorescence, what kind of information can be extracted from this spectroscopy and finally how it competes with other tools described in previous publications such as Fourier Transform Infrared or Raman spectroscopy, X-ray Absorption Near Edge Structure spectroscopy and X-ray diffraction. To attain this goal, several examples based on X-ray fluorescence experiments performed on biological samples namely concretions, medical devices, biological fluids as well as tissues are presented.Résumé. Cette contribution vise à sensibiliser le clinicien sur l'utilisation de la spectroscopie de fluorescence X en précisant le type d'échantillon pouvant être étudié et les informations exploitables. De plus, la complémentarité avec d'autres techniques analytiques présentées dans des publications précédentes, telles que les spectroscopies vibrationnelles (spectroscopie infrarouge à transformée de Fourier et Raman), la spectroscopie d'absorption des rayons X et la diffraction des rayons X est discutée. Différents résultats de mesures par spectroscopie de fluorescence X effectués sur des échantillons biologiques de différentes natures (concrétions, dispositifs médicaux, fluides et tissus biologiques) sont présentés.

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Composition and spatial distribution of elements and isotopes of a giant human bladder stone and environmental implications

Wang

Chen

et al. 2019

Science of The Total Environment

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Urinary stones as a novel matrix for human biomonitoring of toxic and essential elements

Cited by 4 publications

References 35 publications

The key role of major and trace elements in the formation of five common urinary stones

The key role of major and trace elements in the formation of five common urinary stones

The crucial contribution of X-ray fluorescence spectroscopy in medicine

Composition and spatial distribution of elements and isotopes of a giant human bladder stone and environmental implications

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