Volumes and Issues
Home » Optics and Spectroscopy » Year 2025, issue 12 » Article p. 1165
<<<>>>
Modeling radiation of transfer in multilayered tissue taking into account surface curvature
Russian version
Zhavoronkov Yu. A.1, Ul'yanov S. V. 1, Chegadaev R. R. 1
1St. Petersburg State University, St. Petersburg, Russia
Email: ulyanov_sv@mail.ru, rifattchegadaev@yandex.ru
PDF
Modeling of the backscatter intensity of infrared laser radiation on two-layer and four-layer randomly inhomogeneous tissue was performed. A human head model was used as the primary object of study. The results of a comparison of simulations performed for two limiting cases are presented: flat infinite layers of finite thickness and a layered structure with hemispherical boundaries. Radiation transfer in biological tissue was modeled using the Bethe-Salpeter equation in the ladder approximation. The dependences of the backscatter intensity on the distance between the radiation entry point and the photon exit point were obtained. The influence of skull curvature and thickness on the scattering intensity was studied. It was shown that backscatter data can be used in the diagnosis of intracranial injuries. Keywords: backscattering, Monte Carlo simulation, Bethe-Salpeter equation, multilayer tissue.
  1. V.V. Tuchin. Optika biologicheskikh tkanei. Metody rasseyaniya sveta v meditsinskoy diagnostike (IPR Media, M., 2021)
  2. S.L. Jacques. Phys. Med. Biol., 58, R37 (2013). DOI: 10.1088/0031-9155/58/11/R37
  3. F. Scholkmann, S. Kleiser, A.J. Metz, R. Zimmermann, J. Mata Pavia, U. Wolf, M. Wolf. Neuroimag., 85, 6 (2014). DOI: 10.1016/j.neuroimage.2013.05.004
  4. H. Liu, D.A. Boas, Y. Zhang, A.G. Yodh, B. Chance. Phys. Med. Biol., 40, 1983 (1995). DOI: 10.1088/0031-9155/40/11/015
  5. O. Pucci, V. Toronov, K. St Lawrence. Appl. Opt., 49, 6324 (2010). DOI: 10.1364/AO.49.006324
  6. V.L. Kuzmin, Yu.A. Zhavoronkov, S.V. Ul'yanov, A.Yu. Valkov. J. Exp. Theor. Phys., 134, 661 (2022) (in Russian). DOI: 10.31857/S0044451022060013
  7. D.T. Delpy, M. Cope. Philos. Trans. R. Soc. B Biol. Sci., 352 (1354), 649 (1997)
  8. V. Ntziachristos, B. Chance. Med. Phys., 28, 1115 (2001). DOI: 10.1118/1.1373674
  9. A. Torricelli, D. Contini, A. Pifferi, M. Caffini, R. Re, L. Zucchelli, L. Spinelli. Neuroimage 85, 28 (2013)
  10. A. Kienle, M.S. Patterson, N. Dognitz et al. Appl. Opt., 37 (4), 779 (1998)
  11. H. Wabnitz, J. Rodriguez, I. Yaroslavsky, A. Yaroslavsky, V.V. Tuchin. Handbook of Optical Biomedical Diagnostic Light-Tissue Interaction, 2-nd ed. (SPIE Press, Bellingham, Washington, 2016). Vol. 1, 784 p
  12. M.S. Patterson, B. Chance, B.C. Wilson. Appl. Opt., 28 (12), 2331 (1989)
  13. J. Zhao, H.S. Ding, X.L. Hou, C.L. Zhou, B. Chance. J. Biomed. Opt., 10, 024028 (2005). DOI: 10.1117/1.1891345
  14. T. Durduran, R. Choe, J.P. Culver, L. Zubkov, M.J. Holboke, J. Giammarco, B. Chance, A.G. Yodh. Phys. Med. Biol., 47, 2847 (2002). DOI: 10.1088/0031-9155/47/16/302
  15. M.A. Franceschini, S. Thaker, G. Themelis, K.K. Krishnamoorthy, H. Bortfeld, S.G. Diamond, D.A. Boas, K. Arvin, P.E. Grant. Pediatr. Res., 61, 546 (2007). DOI: 10.1203/pdr.0b013e318045be99
  16. S. Fantini, M. A. Franceschini, J.S. Maier, S.A. Walker. Opt. Eng. 34 (1), 32 (1995)
  17. S. Mahmoodkalayeh, M.A. Ansari, V.V. Tuchin. Biomed. Opt. Express, 10, 2795 (2019)
  18. M.S. Cano-Velazquez, N. Davoodzadeh, D. Halaney et al. Biomed. Opt. Express, 10, 3369 (2019)
  19. Yu.A. Zhavoronkov, S.V. Ul'yanov, A.Yu. Valkov, V.L. Kuzmin. Pisma v ZhETF, 117 (5), 389--396 (2023) (in Russian)
  20. M.C.W. Van Rossum, Th.M. Nieuwenhuizen. Rev. Mod. Phys., 71, 313 (1999)
  21. V.L. Kuzmin, I.V. Meglinskii. Quantum Electronics, 36 (11), 990-1002 (2006)
  22. L. Wang, S.L. Jacques, L.Q. Zheng. Comput. Meth. Prog. Bio., 47, 131 (1995)
  23. V.L. Kuzmin, I.V. Meglinsky. Opt. and spectr., 97 (1), 108-115 (2004) (in Russian)
  24. V.L. Kuzmin, I. Meglinski. Opt. Commun. 273 (2), 307-310 (2007)
  25. I. Meglinski, V.L. Kuzmin et al. Proc. Roy. Soc. A, 461, 43-53 (2005)
  26. V.L. Kuzmin, I.V. Meglinsky. Pisma v ZhETF, 79 (3), 139-142 (2004) (in Russian)
  27. V.L. Kuzmin, A.Yu. Val'kov. Pisma v ZhETF 105, 261 (2017) (in Russian)
  28. V.L. Kuz'min, A.Yu. Val'kov, L.A. Zubkov. ZhETF 155, 460 (2019) (in Russian). DOI: 10.1134/S0044451019030088
  29. V.L. Kuzmin, V.P. Romanov, E.V. Aksenova. Phys. Rev. E, 65, 016601 (2001). DOI: 10.1103/PhysRevE.65.016601
  30. T.M. Nieuwenhuizen, J.M. Luck. Phys. Rev. E, 48 (1), 569 (1993). DOI: 10.1103/PhysRevE.48.569
  31. R. Francis, B. Khan, G. Alexandrakis, J. Florence, D. MacFarlane. Biomed Opt Express, 6 (9), 3256-3267 (2015)
  32. B.L.C. Wright, J.T.F. Lai, A.J. Sinclair. J. Neurol., 259, 1530-1545 (2012)
  33. A. Roggan. J. Biomedical Optics, 4 (1), 36-46 (1999). DOI: 10.1117/1.429919
  34. A.N. Yaroslavsky et al. Phys. Med. Biol., 47, 2059 (2002). DOI: 10.1088/0031-9155/47/12/305
Publisher:

Ioffe Institute

Institute Officers:

Director: Sergei V. Ivanov

Contact us:

26 Polytekhnicheskaya, Saint Petersburg 194021, Russian Federation
Fax: +7 (812) 297 1017
Phone: +7 (812) 297 2245
E-mail: post@mail.ioffe.ru