Laser‐induced breakdown spectroscopy‐Raman: An effective complementary approach to analyze renal‐calculi

Presence of renal‐calculi (kidney stones) in human urethra is being increasingly diagnosed over the last decade and is considered as one of the most painful urological disorders. Accurate analysis of such stones plays a vital role in the evaluation of urolithiasis patients and in turn helps the clinicians toward exact etiologies. Two highly complementary laser‐based analytical techniques; laser‐induced breakdown spectroscopy (LIBS) and micro‐Raman spectroscopy have been used to identify the chemical composition of different types of renal‐calculi. LIBS explores elemental characteristics while Raman spectroscopy provides molecular details of the sample. This complete information on the sample composition might help clinicians to identify the key aspects of the formation of kidney stones, hence assist in therapeutic management and to prevent recurrence. The complementarity of both techniques has been emphasized and discussed. LIBS spectra of different types of stones suggest the probable composition of it by virtue of the major, minor and trace elements detected from the sample. However, it failed to differentiate the crystalline form of different hydrates of calcium oxalate stone. This lacuna was overcome by the use of Raman spectroscopy and these results are compared with conventional chemical analysis. Presence of renal‐calculi (kidney stones) in human urethra has been increasingly diagnosed over the last decade and is considered as one of the most painful urological disorders. Two highly complementary analytical techniques; laser‐induced breakdown spectroscopy and Raman have been used to identify the chemical composition of different types of renal‐calculi. Simultaneous elemental and molecular information is useful for the medical community to understand the mechanism behind the formation of kidney stones and to prevent its recurrence.