Magnetic nanotherapeutics of Guerin carcinoma

2013 IEEE 33rd International Scientific Conference Electronics and Nanotechnology, ELNANO 2013 - Conference Proceedings

Volumn , Issue , 2013, Pages 241-245

  Orel, V E ^a,b   Nikolov, N A ^a,b   Rykhalskiy, A Y ^a,b   Dzyatkovskya, N N ^a,b   Romanov, A V ^a   Yaroshenko, O Yu ^b   Supruniuk, D A ^b   Orel, V B ^c   Khamrovskiy, M M ^d   Penievskyi, M L ^b   Radaguz, A V ^b  

^a NATIONAL CANCER INSTITUTE   (Ukraine)

^b NATIONAL TECHNICAL UNIVERSITY OF UKRAINE   (Ukraine)

^c Lyceum of Information Technologies   (Ukraine)

^d Specialized School No 304   (Ukraine)

Author keywords

electromagnetic field; magnetic nanocomplex; magnetic dipole applicator; tumor

Indexed keywords

ANTHRACYCLINE; ANTI-TUMORS; ANTITUMOR EFFECT; DOXORUBICIN; ELECTROMAGNETIC IRRADIATION; MAGNETIC DIPOLE; NANOCOMPLEXES; SPATIALLY INHOMOGENEOUS;

ELECTROMAGNETIC FIELDS; MAGNETOS; SYNTHESIS (CHEMICAL); TUMORS;

NANOMAGNETICS;

EID: 84881408320     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1109/ELNANO.2013.6552027     Document Type: Conference Paper

References (22)

1. www-dep.iarc.fr
2. WTEC panel report on assesment of physical sciences and engineering advances in life sciences and oncology (Aphelion) in Europe. 2012. http://wtec.org/aphelion
3. http://www.cnt.uk.com
4. M. Arruebo, R. Fernandez-Pacheco, and M. R. Ibarra, "Magnetic nanoparticles for drug delivery", J. Nanotoday, vol. 2, no. 3, pp. 22-32, 2007.
5. M. M. Amiji, Nanotechnology for Cancer Therapy. Boca Raton: CRC Press, 2007.
6. M. Blank and L. Soo, "Electromagnetic Acceleration of Electron Transfer Reactions", Journal of Cellular Biochemistry, vol. 81, pp. 278-283, 2001.
7. E. D. Kirson, V. Dbaly, F. Tovarys, J. Vymazal, J. F. Soustiel, A. Itzhaki, et al., "Alternating electric fields arrest cell proliferation in animal tumor models and human brain tumors", PNAC, vol. 104, no. 24, pp. 10152-10157, 2007.
8. A. Jordan, R. Scholz, P. Wust, H. Fahling, R. Felix, "Magnetic fluid hyperthermia: cancer treatment with AC magnetic field induced excitation of biocompatible superparamagnetic nanoparticles", J Mag. Mag. Mat., vol. 201, pp. 413-419, 1999.
9. A. Szent-Gyorgyi, Electronic biology and cancer: A new theory of cancer. New York: Publisher, M. Dekker, 1976.
10. E. Gutman, Mechanochemistry of materials. Cambridge: Int. Science Publishing, 1998.
11. V. E. Orel and A. V. Romanov, "The Effect of Spatially Inhomogeneous Electromagnetic Field and Local Inductive Hyperthermia on Nonlinear Dynamics of the Growth for Transplanted Animal Tumors", in Nonlinear Dynamics, T. Evans, Ed. ?hroatia: INTECH, 2010, pp. 285-308.
12. T. Lagarde, J. Pelletier, and S. M. d'Heres, "Method of producing individual plasmas in order to greate a uniform plasma for a work surface, and apparatus for producing such a plasma", Patent USA 6407359 B1, 2002.
13. N. Nikolov, V. Orel; I. Smolanka, N. Dzyatkovskaya, A. Romanov, Y. Mel'nik et al., "Apparatus for Short-Wave Inductothermy "Magnetotherm", Proceedings of NBC 2008, A. Katushev, Yu. Dekhtyar, and J. Spigulis, Eds. Berlin, Heidelberg: Springer-Verlag, 2008, pp. 294-298.
14. V. E. Orel, I. B. Shchepotin, I. I. Smolanka et al., Radiofrequency hyperthermia of malignant neoplasm, nanotechnology and dynamic chaos. Ternopol: Ukrmedbook, 2012. (in Russian)
15. E. M. Gutman, Mechanochemistry of materials. Cambridge: Int Science Publishing; 1998.
16. H. Kuramitz, "Magnetic microbead-based electrochemical immunoassays", Anal. Bioanal. Chem., vol. 394, no. 1, pp. 61-69, 2009.
17. V. Orel, A. Shevchenko, Y. Mel'nik et al., "Physicochemical characteristics of magnetosensitive nanocomplex obtained by mehanomagnetochemical technology of dry synthesis", Metallofiz. Noveishie Tekhnol., vol. 32, pp. 1157-1167, 2010.
18. S. A. Pud, V. F. Kovalenko, and M.V. Petrichuk, "Enhancement of the magnetoresistive effect in nanocomposites based on manganite La0.67Sr0.33MnO3 and magnetite Fe3O4", Technical Physics, vol. 55, no. 4; pp. 521-525, 2009.
19. V. E. Orel, A. D. Shevchenko, I. I. Dzyatkovskaya, N. A. Nikolov, A. V. Romanov, A. Y. Rihalsky et al., "Comparative study of magnetic properties and antitumor effect of nanocomplexes of oxides iron nanoparticles and doxorubicin during radio-frequency hyperthermia of Walker 256 carcinosarcoma", Reports of the National Academy of Sciences of Ukraine, in press. (in Ukrainian)
20. N. Emanuel, Kinetics of experimental tumor processes. Moscow: Nauka, 1977. (in Russian)
21. R. J. Serfling, Approximation theorems of mathematical statistics. New York: John Wiley & Sons, 1980.
22. S. Engstrem, "Magnetic field effects on free radical reactions in biology. bioengineering and biophysical aspects of electromagnetic fields", F. S. Barnes and B. Greenebaum, Eds. CRC Press, 2006, pp. 157-164..