FLUORESCENCE REDUCTION IN RAMAN SPECTROSCOPY BY CHEMICAL BLEACHING ON RENAL STONES

In this study, a hydrogen peroxide-based chemical bleaching technique was applied on two different types of renal stones. The characterization was achieved after the bleaching process. They were identified as calcium phosphate and calcium oxalate monohydrate. The samples were analyzed using dispersive Raman spectroscopy with a 532 nm excitation laser. To compare the results, the samples were measured using both FT-IR and FT-Raman spectroscopy. Consequently, the mineral/matrix ratio of Raman bands changed for both samples, but without any noticeable frequency shifts in the Raman spectra.

1. V. Mazet, C. Carteret, D. Brie, J. Idier, B. Humbert, Chemometr. Intell. Lab. Syst., 76, 121-133 (2005).

2. A. P. Shreve, N. J. Cherepy, R. A. Mathies, Appl. Spectrosc., 46, 707-711 (1992).

3. S. Yang, B. Li, M. N. Slipchenko, A. Akkus, N. G. Singer, Y. N. Yeni, O. Akkus, J. Raman Spectrosc., 44, 1089-1095 (2013).

4. Y. K. Min, T. Yamamoto, E. Kohda, T. Ito, H. Hamaguchi, J. Raman Spectrosc., 36, 73-75 (2005).

5. M. Sauer, J. Hofkens, J. Enderlein, Handbook of Fluorescence Spectroscopy and Imaging, Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, Germany (2015); https://doi.org/10.1002/9783527633500.ch1.

6. D. Wei, S. Chen, Q. Liu, Appl. Spectrosc. Rev., 50, N 5, 387-406 (2015).

7. T. C. Chen, D. A. Shea, M. D. Morris, Appl. Spectrosc., 56, 1035-1037 (2002).

8. J. R. Ferraro, K. Nakamoto, Ch. W. Brown, Introductory Raman Spectroscopy, 2 nd ed., Academic Press, San Diego (2003).

9. V. Košarová, D. Hradil, I. Nemec, P. Bezdicka, V. Kanický, J. Raman Spectrosc., 44, 1570-1577 (2013).

10. P. J. Cadusch, M. M. Hlaing, S. A. Wade, S. L. McArthur, P. R. Stoddart, J. Raman Spectrosc., 44, 1587-1595 (2013).

11. G. Schulze, A. Jirasek, M. M. L. Yu, A. Lim, R. F. B. Turner, M. W. Blades, Appl. Spectrosc., 59, 545-574 (2005).

12. Handbook of Vibrational Spectroscopy, Eds. N. Sheppard, J. M. Chalmers, P. R. Griffiths, Vol. 1, John Wiley and Sons, Chichester, 1-32 (2002).

13. K. Golcuk, G. S. Mandair, A. F. Callender, N. Sahar, D. H. Kohn, M. D. Morris, Biochim. Biophys. Acta, 1758, 868-873 (2006).

14. D. A. Shea, M. D. Morris, Appl. Spectrosc., 56, 182-186 (2002).

15. G. Penel, G. Leroy, E. Bre’s, Appl. Spectrosc., 52, 312-313 (1998).

16. K. Moharamzadeh, Biocompatibility of Dental Biomaterials, Woodhead Publishing Series in Biomaterials, 113-129 (2017).

17. T. Vargas-Koudriavtsev, R. Durán-Sedó, P. Sáenz-Bonilla, V. Bonilla-Mora, M. Guevara-Bertsch, R. Antonio Jiménez-Corrales, O. A. Herrera-Sancho, Rev. Odontol. Mex., 19, 228-235 (2015).

18. M. Unal, O. Akkus, Bone, 81, 315-326 (2015).

19. G. S. Mandair, M. D. Morris, Bonekey Rep., 4, 1-8 (2015).

20. H. J. Butler, L. Ashton, B. Bird, G. Cinque, K. Curtis, J. Dorney, W. K. Esmonde, N. J. Fullwood, B. Gardner, P. L. M. Hirsch, M. J. Walsh, M. R. M. Ainsh, N. Stone, F. L. Martin, Nature Protocol, 11, 664-687 (2016).

21. J. M. Silveira, S. Longelin, A. D. Mataa, M. L. Carvalho, J. Raman Spectrosc., 43, 1089-1093 (2012).

22. Z. Li1, M. AI-Jawad, S. Siddiqui, J. D. Pasteris, Sci. Rep., 5, 1-10 (2015).

23. M. Ritza, L. Vaculíkovác, J. Kupkováe, E. Plevovác, L. Bartonováa, Vibr. Spectrosc., 84, 7-15 (2016).

24. J. J. Freeman, B. Wopenka, M. J. Silva, J. D. Pasteris, Calcif. Tissue Int., 68, 156-162 (2001).

25. M. D. Morris, G. S. Mandair, Clin. Orthopaed. Relat. Res., 469, 2160-2169 (2011).

26. S. K. H. Khalil, M. A. Azooz, J. Appl. Sci. Res., 3, 387-391 (2007).

27. M. Daudon, M. F. Protat, R. J. Reveillaud, H. Jaeschke-Boyer, Kidney Int., 23, 842-850 (1983).

28. M. Pucetaite, M. Velicka, S. Tamosaityte, V. Sablinskas, Plasmonic Biol. Med., 8957, 1-8 (2014).

29. E. E. Lawson, B. W. Barry, A. C. Williams, H. G. M. Edwards, J. Raman Spectrosc., 28, 111-117 (1997).

30. C. Paluszkiewicz, M. Gałka, W. Kwiatek, A. Parczewski, S. Walas, Biospectroscopy, 3, 403-407 (1997).

31. C. G. Kontoyannis, N. C. Bouropoulos, P. G. Koutsoukos, Appl. Spectrosc., 51, 64-67 (1997).

32. R. Selvaraju, G. Thiruppathi, A. Raja, Spectrochim. Acta, A, 93, 260-265 (2012).

33. M. H. Khaskheli, S. T. H. Sherazi, H. M. Ujan, S. A. Mahesar, Turk. J. Chem., 36, 477-483 (2012).

34. X. Carpentier, M. Daudon, O. Traxer, P. Jungers, A. Mazouyes, G. Matzen, E. Véron, D. Bazin, Urology, 73, 968-975 (2009).

35. R. Selvaraju, A. Raja, G. Thiruppathi, Spectrochim. Acta, A, 137, 1397-1402 (2015).

36. E. L. Prien, E. L. Prien, Am. J. Med., 45, 654-672 (1968).

37. S. Matsuzaki, K. Matsuzaki, T. Tanikawa, A. Masuda, F. Matsunaga, Int. J. Urol., 2, 235-237 (1995).

38. Y. H. Lee, W. C. Huang, J. Y. Tsai, J. K. Huang, J. Urol., 161, 1453-1457 (1999).

39. E. V. Wilson, M. J. Bushirib, V. K. Vaidyan, Spectrochim. Acta, A, 77, 442-445 (2010).

40. H. T. H. Shing, S. L. Yang, C. L. Cheng, W. T. Cheng, Urol. Res., 39, 165-170 (2011).

41. M. Kocademir, A. Baykal, M. Kumru, M. L. Tahmaz, Spectrochim. Acta, A, 160, 1-7 (2016).

42. M. Serkan Yalçın, Mesut Tek, J. Appl. Spectrosc., 85, 61050-61057 (2019).

43. S. R. Khan, P. N. Shevock, R. L. Hackett, Calcif. Tissue Int., 42, 91-96 (1988).

44. S. Sandersius, P. Rez, Urol. Res., 35, 287-293 (2007).

45. H. Tsuda, J. A. Materia, J. Dent. Res., 73, 1703-1710 (1994).