Spectral characterization of renal calculi collected from population in downtown Madrid (Spain)

[Display omitted] •Calculi from population in downtown Madrid (Spain) were characterised by spectral techniques.•Raman and CL techniques provide precise information about chemical and structural composition of the bladder or kidney stones.•An attempt was made to establish a correlation between the c...

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Bibliographic Details
Published in:Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy Vol. 304; p. 123395
Main Authors: González-Enguita, C., Garcia-Giménez, R., Garcia-Guinea, J., Correcher, V.
Format: Journal Article
Language:English
Published: Elsevier B.V 05-01-2024
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Summary:[Display omitted] •Calculi from population in downtown Madrid (Spain) were characterised by spectral techniques.•Raman and CL techniques provide precise information about chemical and structural composition of the bladder or kidney stones.•An attempt was made to establish a correlation between the calculi type of surgically obtained samples and dietary habits. This paper reports on a comprehensive approach to characterize a set of kidney stones through various analytical techniques including ESEM-EDS, XRD, Raman, and CL spectroscopy, linked to an assessment of the patient's lifestyle and dietary habits. The use of these techniques can provide valuable insights into the underlying causes of stone formation and guide strategies for prevention and treatment. ESEM-EDS and XRD are commonly used techniques for kidney stone characterization due to their complementary nature, enabling the identification of a wide range of renal calculi. However, these techniques may not be sensitive enough to determine the detailed composition of the samples. In such cases, Raman and CL techniques can be used to provide more precise information about the chemical and structural composition of the stones. Raman spectroscopy, for example, can identify molecular phases observed under an optical microscope characterizing chemical compositions through vibrational modes associated with specific bonds. The CL spectral emission within the 250–850 nm range can also yield valuable information about the mineral phases, including the identification of structural crystallinity, hydrated molecules, Ca-OH bonds, and oxygen defects. By correlating spectral analyses with patient habits, this study identifies potential exogenous factors contributing to stone formation, including excess protein consumption, urinary bacterial infections, and oxalate-rich diets. This comprehensive approach provides a more complete understanding of the composition of kidney stones helping to personalized prevention and treatment strategies.
ISSN:1386-1425
DOI:10.1016/j.saa.2023.123395