Examples



mdbootstrap.com



 
Статья
2020

Determination of boron by inductively coupled plasma atomic emission spectroscopy. Biodistribution of 10B in tumor-bearing mice


A. R. TsygankovaA. R. Tsygankova, V. V. KanyginV. V. Kanygin, A. I. KasatovaA. I. Kasatova, E. L. Zav’yalovE. L. Zav’yalov, T. Ya. Gusel’nikovaT. Ya. Gusel’nikova, A. I. KichiginA. I. Kichigin, R. A. MukhamadiyarovR. A. Mukhamadiyarov
Российский химический вестник
https://doi.org/10.1007/s11172-020-2805-8
Abstract / Full Text

The determination of boron in animal organ tissues using inductively coupled plasma atomic emission spectroscopy (ICP AES) has been optimized for analytical support of boron neutron capture therapy of cancerous tumors. The proposed technique is universal and rapid. The methodology includes: preliminary acid decomposition at elevated temperatures and pressure (if necessary), determination of boron by ICP AES in the obtained solutions using reference samples based on single-element solutions. The method is verified by spike experiment and varying the weight-samples. The ICP AES technique was used to evaluate the accumulation of boronophenylalanine and borocaptate in mice organs. Biodistribution of 10B in the case of intravenous administration of the drug to SCID mice with SPF status using the human glioblastoma cell line U87 was investigated.

Author information
  • Novosibirsk National Research State University, 2 ul. Pirogova, 630090, Novosibirsk, Russian FederationA. R. Tsygankova, V. V. Kanygin, A. I. Kasatova, E. L. Zav’yalov & A. I. Kichigin
  • A. V. Nikolaev Institute of Inorganic Chemistry, Siberian Branch of the Russian Academy of Sciences, 3 prosp. Akad. Lavrent’eva, 630090, Novosibirsk, Russian FederationA. R. Tsygankova & T. Ya. Gusel’nikova
  • G I. Budker Institute of Nuclear Physics, Siberian Branch of the Russian Academy of Sciences, 11 prosp. Akad. Lavrent’eva, 630090, Novosibirsk, Russian FederationA. I. Kasatova
  • Multi-user Center “SPF-Vivarium” of the Institute of Cytology and Genetics, Siberian Branch of the Russian Academy of Sciences, 10/2 prosp. Akad. Lavrent’eva, 630090, Novosibirsk, Russian FederationE. L. Zav’yalov & A. I. Kichigin
  • Research Institute for Complex Issues of Cardiovascular Diseases, 6 Sosnovii bulvar, 650002, Kemerovo, Russian FederationR. A. Mukhamadiyarov
References
  1. R. F. Barth, M. Graca, H. Vicente, O. K. Harling, W. S. Kiger III, K. J. Riley, P. J. Binns, F. M. Wagner, M. Suzuki, T. Aihara, I. Kato, Shinji, Radiat. Oncol., 2012, 7, 146.
  2. R. F. Barth, Z. Zhang, T. Liu, Cancer Commun., 2018, 38, 36.
  3. V. V. Kanygin, A. I. Kichigin, N. V. Gubanova, S. Yu. Taskaev, Vestnk. rentgenologii i radiologii [Bull. of Radiology], 2015, 6, 36 (in Russian).
  4. V. A. Byvaltsev, E. L. Zavjalov, V. V. Kanygin, A. I. Kasatova, I. A. Razumov, T. V. Sycheva, S. Y. Taskaev, Sibirskii onkolog. zhurn. [Siberian J. Oncol.], 2019, 18, No. 4, 341 (in Russian).
  5. S. Yu. Taskaev, V. V. Kanygin, V. A. Byvaltsev, A. A. Zaboronok, O. Yu. Volkova, L. V. Mechetina, A. V. Taranin, A. I. Kichigin, A. I. Iarullina, I. A. Eliseenko, K. Nakai, E. Sato, T. Yamamoto, E. Ishikawa, A. Matsumura, Biomed. Eng., 2018, 52, 73.
  6. J. A. Coderre, D. D. Joel, P. L. Micca, M. M. Nawrocky, D. N. Slatkin, Radiation Res., 1992, 129, 290.
  7. J. A. Coderre, T. M. Button, P. L. Micca, C. D. Fisher, M. M. Nawrocky, H. B. Liu, Int. J. Radiation Oncology Biol. Phys., 1994, 30, 643.
  8. M. Suzuki, Sh.-I. Masunaga, Y. Kinashi, M. Takagaki, Y. Sakurai, T. Kobayashi, K. Ono, Jap. J. Cancer Res., 2000, 91, 1058.
  9. D. D. Joel, J. A. Coderre, P. L. Micca, M. M. Nawrocky, J. Neuro-Oncology, 1999, 41, 213.
  10. A. Deagostino, N. Protti, D. Alberti, P. Boggio, S. Bortolussi, S. Altieri, S. Geninatti Crich, Future Med. Chem., 2016, 8, 899.
  11. P. Agüi-Gonzalez, S. Jähne, N. T. Phan, J. Anal. Atom. Spectrom., 2019, 34, 1355.
  12. Y. C. Lin, J. J. Hwang, S. J. Wang, B.-H. Yang, Ch.-W. Chang, M.-Ch. Hsiao, F.-I. Chou, Anticancer Res., 2012, 32, 2657.
  13. P. J. Kuefer, Ch. A. Maitz, A. A. Khan, S. A. Schuster, N. I. Shlyakhtina, S. S. Jalisatgi, J. D. Brockman, D. W. Nigg, M. F. Hawthorne, Proc. Nat. Acad. Sci. USA, 2013, 110, 6512.
  14. A. Matsumura, Y. Shibata, T. Yamamoto, F. Yoshida, T. Isobe, K. Nakai, Y. Hayakawa, M. Kiriya, N. Shimojo, K. Ono, I. Sakata, S. Nakajim, M. Okumura, T. Nosea, Cancer Lett., 1999, 141, 203.
  15. M. A. Garabalino, E. M. Heber, A. M. Hughes, E. C. C. Pozzi, A. J. Molinari, D. W. Nigg, W. Bauer, V. A. Trivillin, A. E. Schwint, Appl. Radiation Isotopes, 2014, 88, 64.
  16. M. Carpano, M. Perona, C. Rodriguez, S. Nievas, M. Olivera, G. A. Santa Cruz, D. Brandizzi, R. Cabrini, M. Pisarev, G. J. Juvenal, M. A. Dagrosa, Int. J. Radiation Oncology, Biol. Phys., 2015, 93, 344.
  17. R. F. Barth, G. W. Kabalka, W. Yang, T. Huo, R. J. Nakkula, A. L. Shaikh, S. A. Haider, S. Chandra, Appl. Radiation Isotopes, 2014, 88, 38.
  18. M. A. Dagrosa, M. Viaggi, E. Kreimann, S. Farías, R. Garavaglia, M. Agote, R. L. Cabrini, J. L. Dadino, G. J. Juvenal, M. A. Pisarev, Thyroid, 2002, 12, 7.
  19. A. Doi, Sh. Kawabata, K. Iida, K. Yokoyama, Y. Kajimoto, T. Kuroiwa, T. Shirakawa, M. Kirihata, S. Kasaoka, K. Maruyama, H. Kumada, Y. Sakurai, Sh.-I. Masunaga, K. Ono, Sh.-I. Miyatake, J. Neuro-Oncology, 2008, 87, 287.
  20. J. Hiratsuka, K. Yoshino, H. Kondoh, Y. Imajo, Y. Mishima, Jap. J. Cancer Res., 2000, 91, 446.
  21. M. Białek-Pietras, A. B. Olejniczak, Sh. Tachikawa, H. Nakamura, Z. J. Leśnikowskia, Bioorg. Med. Chem., 2013, 21, 1136.
  22. J. Laakso, M. Kulvik, I. Ruokonen, J. Vähätalo, R. Zilliacus, M. Färkkilä, M. Kallio, Clin. Chem., 2001, 47, 1796.
  23. M. Korkmaz, U. Şayloi, B. S. Şayloi, S. Bakoirdere, S. Titretir, O. Ya. Ataman, S. Keskin, Br. J. Nutrition, 2007, 98, 571.
  24. R. Rahil-Khazen, B. J. Bolann, R. J. Ulvik, Clin. Chem. Lab. Med., 2000, 38, 765.
  25. V. I. Fedorov, Analitika i kontrol’ [Analytics and Control], 2005, 4, 358 (in Russian).
  26. A. Wittig, J. Michel, R. L. Moss, F. Stecher-Rasmussen, H. F. Arlinghaus, P. Bendel, P. L. Mauri, S. Altieri, R. Hilger, P. A. Salvadori, L. Menichetti, R. Zamenhof, W. A. G. Sauerwein, Crit. Rev. Oncol. Hematol., 2008, 68, 66.
  27. S. Evans, U. Krähenbühl, Fresen. J. Anal. Chem., 1994, 349, 454.
  28. D. H. Sun, J. K. Waters, T. P Mawhinney, J. Anal. Atom. Spectrom., 1997, 12, 675.
  29. T. U. Probst, N. G. Berryman, P. Lemmen, L. Weissfloch, T. Auberger, D. Gabel, J. Carlsson, B. Larsson, J. Anal. Atom. Spectrom., 1997, 12, 1115.
  30. A. Al-Ammar, R. K. Gupta, R. M. Barnes, Spectrochim. Acta, Part B, 1999, 54, 077.
  31. N. P. Zaksas, T. T. Sultangazieva, T. M. Korda, J. Anal. Chem, 2006, 61, 582.
  32. N. Zaksas, Y. Gluhcheva, S. Sedykh, M. Madzharova, N. Atanassova, G. Nevinskyc, J. Trace Elem. Med. Biol., 2013, 27, 27.
  33. Zh. Zh. Zheenbaev, V. S. Engel’sht, Dvukhstrunnyi plazmotron [Two-string Plasmatron], Ilim, Frunze, 1983, 200 pp. (in Russian).
  34. A. R. Tsygankova, G. V. Makashova, I. R. Shelpakova, Metody i obyekty khim. analiza [Methods and Objects of Chem. Analysis], 2012, 7, 138 (in Russian).
  35. NIST Atomic Spectra Database, Version 5.6.1, 2019.
  36. A. N. Zaydel’, V. K. Prokof’ev, S. M. Rayskiy, V. A. Slavnyy, E. Ya. Shreyder, Tablitsy spektral’nykh linii [Tables of Spectral Lines], Nauka, Moscow, 1969, 782 pp. (in Russian).
  37. A. N. Zaydel’, V. K. Prokof’ev, S. M. Rayskiy, V. A. Slavnyy, E. Ya. Shreyder, Tablitsy spektral’nykh linii [Tables of Spectral Lines], Nauka, Moscow, 1969, 782 pp. (in Russian).