CHANGE OF OPTICAL PROPERTIES OF HAIR CELLS DURING MALIGNANT TUMOR DEVELOPMENT


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Abstract

The results of experimental investigations on the differences of wool microstructure and its biophysical properties of healthy mice and mice with malignant tumor(s) are represented in the paper. It is shown that destruction of wool structure as well as biochemical composition change of wool cells is during pathology development. Difference is seen even when tumor is small. We have shown that the general regularity of spectral measurements for mammary and hair cells is conserved at health state and pathology present. Taking into account this, the represented data about wool structure can be used to improve the optical techniques for non-invasive diagnostics of cancer diseases at different stages of pathology.

About the authors

Valeriya Sergeevna Maryakhina

Orenburg state university

Author for correspondence.
Email: v.s.maryakhina@gmail.com
Associate professor, senior researcher Russian Federation

Ksenia Anenkova

Lomonosov Moscow state University

Email: ksushik_1989@mail.ru
PhD student Russian Federation

References

  1. V. V. Tuchin, “Light scattering study of tissues,” Phys. Usp. 40, 495 - 515 (1997).
  2. V. S. Maryakhina, and V. V. Gun’kov, “Fluorescent probe immobilization into enzyme molecules”, Computer research and modeling 5, 201-208 (2013).
  3. S. N. Letuta, V. S. Maryakhina, and R. R. Rakhmatullin, ”Optical diagnostics of biological tissue cells during their cultivation in polymers,” Quantum electronics 41, 314-317 (2011).
  4. T. Schlake, “Determination of wool structure and shape,” Seminars in Cell & Developmental Biology 18, 267–273 (2007).
  5. S. B. Park, S. W. Choi, and A. Y. Nam, “Wool Tissue Mineral Analysis and Metabolic Syndrome,” Biol Trace Elem Res 130, 218-228 (2009).
  6. V. S. Maryakhina, L. S. Scheglova, and K. A. Anenkova, “Features of structure of external layer of murine hair at different stages of malignant tumour development,” Journal of Innovative Optical Health Sciences 8, 1541001 (2015).
  7. G. Z. Kammins, and E. R. Paik, Photon Correlation and Light Beating Spectroscopy. New York: Plenum (1974).
  8. R. Pecora, Dynamic Light Scattering from Macromolecules, Stanford: Stanford Univ. (1984).
  9. K. A. Anenkova, G. P. Petrova, V. V. Gibizova, L. A. Osminkina, and K. P. Tamarov, “Optical properties of serum albumin water solutions, containing mesoporous silicon particles,” Optics and Spectroscopy 115, 166-170, (2013).
  10. G. E. Dobretsov, Fluorescent Probes in the Studies of Cells, Membranes, and Lipoproteins, Moscow: Nauka (1989).
  11. L. S. Scheglova, L. L. Abramova, and V. S. Maryakhina, “Optical diagnostics of tumour cells at different stages of pathology development,” Quantum electronics 43, 1088-1090 (2013).
  12. N. M. Emanuel, R. Е. Kavetskiy, B. N. Tarusov, and Е. P. Sidorik, Biophysics of cancer, Kiev: Science (1976).
  13. S. N. Letuta, and V. S. Maryakhina, ”The delayed fluorescence kinetics as a method of biological tissue diagnostics,” Proc. SPIE 7999, 799907 (2011).
  14. V. James, J. Kearsley, T. Irving, Y. Amemiya, and D. Cookson, “Using wool to screen for breast cancer,” Nature 398, 33-34 (1999).
  15. F. Briki, B. Busson, B. Salicru, F. Estève, and J. Doucet, “Breast-cancer diagnosis using wool,” Nature 400, 226 (1999).
  16. M. Hart, “Using wool to screen for breast cancer,” Synchrotron Rad. News 12, 31-37 (1999).
  17. Q. Pasha, S. A. Malik, N. Shaheen, and M. H. Shah, “Investigation of trace metals in the blood plasma and scalp wool of gastrointestinal cancer patients in comparison with controls,” Clinica Chimica Acta 411, 531-539 (2010).
  18. E. L. Abel, J. M. Angel, K. Kiguchi, and J. DiGiovanni, “Multi-stage chemical carcinogenesis in mouse skin: Fundamentals and applications,” Nature Protocols 4, 1350-1362 (2009).
  19. V. S. Maryakhina, and S. N. Letuta, “Pathology development stage and its influence to the delayed fluorescence kinetics of molecular probes,” Laser physics 23, 025604 (2013).

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