DOI: https://doi.org/10.24061/1727-4338.XVII.1.63.2018.24

ЛАЗЕРНА НЕФЕЛОМЕТРІЯ БІОТКАНИН

D. I. Ostafiichuk, A. B. Horkunenko, T. O. Plaksivaya, N. A. Skrynskaya

Анотація


Резюме. У даній статті оглядово проаналізовано можливості використання методу лазерної нефелометрії (Мюллер-матричної поляризації) у діагностиці  структури архітектоніки біотканин, обґрунтовано використання поляризаційних методів дослідження в медицині, що дають нову інформацію про морфологічну й оптико-анізотропну структуру біотканин.


Ключові слова


лазери; діагностика; поляриметрія; нефелометрія; матриця Мюллера; біотканина

Повний текст:

PDF

Посилання


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Tuchin VV, editors. Handbook of Coherent-domain Optical Methods: Biomedical Diagnostics, Environmental and Material Science. Vol. 1. 2nded. Springer; 2013.

Fercher AF. Optical coherence tomography. J Biomed Opt. 1996;1(2):157-73. doi: 10.1117/12.231361

Schmitt JM. Optical coherence tomography (OCT): a review. IEEE Journal of Selected Topics in Quantum Electronics. 1999;5(4):1205-15. doi: 10.1109/2944.796348

de Boer JF, Milner TE, van Gemert MJ, Nelson JS. Two-dimensional birefringence imaging in biological tissue by polarization-sensitive optical conerehce tomography. Opt Lett. 1997;22(12):934-6.

Jiao S, Yao G, Wang LV. Depth-resolved two-dimensional stokes vectors of backscattered light and mueller matrices jf biological tissue measured with optical coherence tomography. Appl Opt. 2000;39(34):6318-24. doi: https://doi.org/10.1364/AO.39.006318

van de Hulst HC. Light scattering by small perticles. 2th ed. New York: Dover Publications; 1981. 470 р.

Ushenko OH, Bachyns'kyi VT. Lazerna nefelometriia biolohichnykh tkanyn [Laser nefelometry of biological tissues]: monohrafiia. Chernivtsi: Ruta; 2007. 300 s. (in Ukrainian).

Priezzhev AV, Tuchin VV, Shubochkin LP. Lazernaja diagnostika v biologii i medicine [Laser diagnostics in biology and medicine]. Moskov: Nauka; 1989. 240 s. (in Russian).

Letokhov VS. Laser biology and medicine. Nature. 1985;316(6026):325-30. 11. Freshni PJa. Kul'tura zhivotnyh kletok. Metody [Culture of animal cells. Methods]. Moskov: Mir; 1989. 318 s. (in Russian).

Tuchin VV, editors. Cell and Biotissue Optics: Application in Laser Diagnostics and Therapy. Proc SPIE. 1994;2100.

Tertappen LW, de Grooth BG, Visscher K, van Kouterik FA, Greve J. Four-parameter white blood cell differential couting based on light scattering measurement. Cytometry. 1988;9(1):39-43. doi: 10.1002/cyto.990090107

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Mandelbrot BB. The Fractal Geometry of Nature. San Francisko: WH Freeman; 1982. 468 р.

Sayles R, Thomas TR. Surface topography as a nonstationary random process. Nature. 1978;271:431-4. doi: 10.1038/271431a0

Zimnjakov DA. Jevoljucija fraktal'noj razmernosti fluktuacij intensivnosti v zone difrakcii Frenelja [Evolution of the fractal dimension of intensity fluctuations in the Fresnel diffraction zone]. Optika i spektroskopija. 1997;83(5):795-800. (in Russian).

Zimnyakov DA. Tuchin VV. Fractality of speckle intensity fluctuations. Appl Opt. 1996;35(22):3325–33.

Pietronero L, Tosati E, editors. Fractals in Physics. Amsterdam; 1996. 422 p.

Brown JH, West GB, editors. Scaling in biology (Santa Fe Institute Studies on the Sciences of Complexity). 1st ed. Oxford University Press; 2000. 352 р.

Fernandez E, Jelinek HF. Use of fractal fheory in neuroscience:methods, advantages and potential problems. Methods. 2001;24(4):309-21. doi: 10.1006/meth.2001.1201

Cowin SC. How is a tissue built? J Biomed Eng. 2000;122(6):553-68.

Pishak VP, Ushenko OH, redaktory. Lazerna poliarymetrychna diahnostyka v biolohii ta medytsyni [Laser polarimetric diagnostics in biology and medicine]. Chernivtsi: Medakademiia; 2000. 305 s. (in Ukrainian).

Ushenko AG, Angel'skij OV, Arheljuk AD, Ermolenko SB, Burkovec DN. Rassejanie lazernogo izluchenija mul'tifraktal'nymi biostrukturami [Scattering of laser radiation by multifractal biostructures]. Optika i spektroskopija. 2000;88(3):495-8. (in Russian).

Ushenko AG. Poljarizacionnaja struktura biospeklov i depoljarizacija lazernogo izluchenija [Polarization structure of biospectra and depolarization of laser radiation]. Optika i spektroskopija. 2000;88(4):651-4. (in Russian).

Gerrard A, Burch JM. Introduction to matrix methods in optics. New York; Dover Publications, Inc; 1975.

Ushenko AG. Stokes Correlometry of Biotissues. Laser Physics. 2000;10(6):1286.

Pishak VP, Ushenko OH, Pishak OV. Doslidzhennia mikrostruktury kistkovoi tkanyny u poliaryzovanomu lazernomu svitli [Investigation of bone tissue microstructure in polarized laser light]. Medychni perspektyvy. 2000;5(4):3-7. (in Ukrainian).

Pishak VP, Ushenko OH, Pishak OV. Doslidzhennia dynamiky patolohichnykh zmin dyspersii ta kontrastu koherentnykh zobrazhen' kistkovoi tkanyny [Research of dynamics of pathological changes of dispersion and contrast of coherent images of bone tissue]. Ukrains'kyi medychnyi al'manakh. 2000;3(4):170-3. (in Ukrainian).

Ushenko AG. Laser polarization microscopy of biofractals. Proc SPIE. 1998;3573:609-12.

Ushenko AG, Burkovets DM, Yermolenko SB, Arkhelyuk AD, Pishak VP, Pishak OV, et al. Laser polarimetry of the orientational structure of bone tissue osteons. Proc SPIE. 1999;3904:557-61.

Ushenko AG, Burkovets DM, Yermolenko SB, Arkhelyuk AD, Ushenko YA, Pishak VP, et al. Polarized mikrostructure of laser radiation scattered by optically active biotissues. Proc SPIE. 1999;3904:542-8.

Ushenko AG. Laser polarimetry of polarization-phase statistical moments of the objects field of optically anisotropic scattering layers. Optics and Spectroscopy. 2001;91(2):313-6.

Angel’skiĭ OV, Ushenko AG, Burkovets DN, Ushenko YuA. Polarization-correlation analysis of anisotropic structures in bone tissue for the diagnostics of pathological changes. Optics and Spectroscopy. 2001;90(3):458-62.

Ushenko AG. Laser probing of biological tissues and tne polarization selection of tneir images. Optics and Spectroscopy. 2001;91(6):932-6.

Ushenko AG. Polarization contrast enhancement of images of biological tissues under the conditions of multiple scattering. Optics and Spectroscopy. 2001;91(6):937-40.

Yermolenko SB, Angelsky OV, Ushenko AG, Pishak VP, Pishak OV. Laser polarimetry tomography of biotissue pathological changes. Proc SPIE. 2001;4425:117-23.

Tuchin VV, Maksimova II, Zimnyakov DA, Kon IL, Mavlyutov AH, Mishin AA. Light propagation in tissues with controlled optical properties. J Biomed Opt. 1997;2(4):401-17. doi: 10.1117/12.281502

Jyzwicki R, Patorski K, Angelsky OV, Ushenko AG, Вurkovets DN, Ushenko YA. Automatic polarimetric system for early medical diagnosis by biotissue testing. Optica Applicata. 2002;32(4):603-12.

Angel'skij OV, Ushenko AG, Arheljuk AD, Ermolenko SB, Burkovec DN. O strukture matric preobrazovanija lazernogo izluchenija biofraktalami [On the structure of matrices for the conversion of laser radiation by biofractals]. Kvantovaja jelektronika. 1999;29(3):235-8. (in Russian).

Ushenko AG. Polarization introscopy of phase-inhomogeneous layers. Proc SPIE. 2002;4900:1323-6.

Angelsky OV, Ushenko AG, Burkovets DN, Pishak VP, Pishak OV. Laser polarimetry of pathological changes in biotissues. Proc SPIE. 2002;4900:1045-9.

Ushenko AG, Pishak VP, Pishak OV, Olar OI, Yermolenko SB, Prydij AG, et al. Mueller matrices mapping of biological tissue architectonics. Proc SPIE. 2004;5477:422-9.

Ushenko AG. 2D phase tomography of biotissues: I. Topological structure value of birefringence. Proc SPIE. 2004;5477:438-9.

Ushenko AG. 2D phase tomography of biotissues: II. Polarization visualization and selection of biotissue image two-layer scattering medium. Proc SPIE. 2004;5477:450-6.


Пристатейна бібліографія ГОСТ


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2. Tuchin VV, editors. Handbook of Coherent-domain Optical Methods:  Biomedical Diagnostics, Environmental and Material Science. Vol. 1. 2nded. Springer; 2013.      

3. Fercher AF. Optical coherence tomography. J Biomed Opt. 1996;1(2):157-73. doi: 10.1117/12.231361

4. Schmitt JM. Optical coherence tomography (OCT): a review. IEEE Journal of Selected Topics in Quantum Electronics. 1999;5(4):1205-15. doi: 10.1109/2944.796348 

5. de Boer JF, Milner TE, van Gemert MJ, Nelson JS. Two-dimensional birefringence imaging in biological tissue by polarization-sensitive optical conerehce tomography. Opt Lett. 1997;22(12):934-6.   

6. Jiao S, Yao G, Wang LV. Depth-resolved two-dimensional stokes vectors of backscattered light and mueller matrices jf biological tissue measured with optical coherence tomography. Appl Opt. 2000;39(34):6318-24. doi: https://doi.org/10.1364/AO.39.006318

7. van de Hulst HC. Light scattering by small perticles. 2th ed. New York: Dover Publications; 1981. 470 р.

8. Ушенко ОГ, Бачинський ВТ. Лазерна нефелометрія біологічних тканин: монографія. Чернівці: Рута; 2007. 300 с.

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10. Letokhov VS. Laser biology and medicine. Nature. 1985;316(6026):325-30.  11. Фрешни PЯ. Культура животных клеток. Методы. Москва: Мир; 1989. 318 с.

12. Tuchin VV, editors. Cell and Biotissue Optics: Application in Laser Diagnostics and Therapy. Proc SPIE. 1994;2100. 

13. Tertappen LW, de Grooth BG, Visscher K, van Kouterik FAGreve J. Four-parameter white blood cell differential couting based on light scattering measurement. Cytometry. 1988;9(1):39-43. doi: 10.1002/cyto.990090107

14. Ушенко АГ. Лазерная диагностика биофракталов. Квантовая электроника. 1999;29(3):239-45.

15. Mandelbrot BB. The Fractal Geometry of Nature. San Francisko: WH Freeman; 1982. 468 р. 

16. Sayles R, Thomas TR. Surface topography as a nonstationary random process. Nature. 1978;271:431-4. doi: 10.1038/271431a0

17. Зимняков ДА. Эволюция фрактальной размерности флуктуаций интенсивности в зоне дифракции Френеля. Оптика и спектроскопия. 1997;83(5):795-800. 

18. Zimnyakov DA. Tuchin VV. Fractality of speckle intensity  fluctuations. Appl Opt. 1996;35(22):3325–33.

19. Pietronero L, Tosati E, editors. Fractals in Physics. Amsterdam; 1996. 422 p.       

20. Brown JH, West GB, editors. Scaling in biology (Santa Fe Institute Studies on the Sciences of Complexity). 1st ed. Oxford University Press; 2000. 352 р.                                                               

21. Fernandez E, Jelinek HF. Use of fractal fheory in neuroscience:methods, advantages and potential problems. Methods. 2001;24(4):309-21. doi: 10.1006/meth.2001.1201             

22. Cowin SC. How is a tissue built? J Biomed Eng. 2000;122(6):553-68. 

23. Пішак ВП, Ушенко ОГ, редактори. Лазерна поляриметрична діагностика в біології та медицині. Чернівці: Медакадемія; 2000. 305 c.

24. Ушенко АГ, Ангельский  ОВ, Архелюк АД, Ермоленко СБ, Бурковец ДН. Рассеяние лазерного  излучения  мультифрактальными  биоструктурами. Оптика и спектроскопия. 2000;88(3):495-8.  

25.Ушенко АГ. Поляризационная структура биоспеклов и деполяризация лазерного излучения. Оптика и спектроскопия. 2000;88(4):651-4.

26. Gerrard A, Burch JM. Introduction to matrix methods in optics. New York; Dover Publications, Inc; 1975.

27. Ushenko AG. Stokes Correlometry of Biotissues. Laser Physics. 2000;10(6):1286. 

28. Пішак ВП, Ушенко ОГ, Пішак ОВ. Дослідження мікроструктури кісткової тканини у поляризованому лазерному світлі. Медичні перспективи. 2000;5(4):3-7. 

29. Пішак ВП, Ушенко ОГ, Пішак ОВ. Дослідження динаміки патологічних змін  дисперсії та контрасту  когерентних зображень кісткової  тканини. Український медичний альманах. 2000;3(4):170-3. 

30. Ushenko AG. Laser polarization microscopy of biofractals. Proc SPIE. 1998;3573:609-12.  

31. Ushenko AG, Burkovets DM, Yermolenko SB, Arkhelyuk AD, Pishak VP, Pishak OV, et al. Laser polarimetry of  the orientational structure of bone tissue osteons. Proc SPIE. 1999;3904:557-61. 

32. Ushenko AG, Burkovets DM, Yermolenko SB, Arkhelyuk AD, Ushenko YA, Pishak VP, et al. Polarized mikrostructure of laser radiation scattered  by optically  active  biotissues. Proc SPIE. 1999;3904:542-8.

33. Ushenko AG. Laser polarimetry of polarization-phase statistical moments of the objects field of optically anisotropic scattering layers. Optics and Spectroscopy. 2001;91(2):313-6.      

34. Angel’skiĭ OV, Ushenko AG, Burkovets DN, Ushenko YuA. Polarization-correlation analysis of anisotropic structures in bone tissue for the diagnostics of pathological changes. Optics and Spectroscopy. 2001;90(3):458-62.                 

35. Ushenko AG. Laser probing of biological tissues and tne polarization selection of tneir images. Optics and Spectroscopy. 2001;91(6):932-6.     

36. Ushenko AG. Polarization contrast enhancement of images of biological tissues under the conditions of multiple scattering. Optics and Spectroscopy. 2001;91(6):937-40.  

37. Yermolenko SB, Angelsky OV, Ushenko AG, Pishak VP, Pishak OV. Laser polarimetry tomography of biotissue pathological changes. Proc SPIE. 2001;4425:117-23. 

38. Tuchin VV, Maksimova II, Zimnyakov DA, Kon ILMavlyutov AHMishin AA. Light propagation in tissues with controlled optical properties. J Biomed Opt. 1997;2(4):401-17. doi: 10.1117/12.281502

39. Jyzwicki R, Patorski K, Angelsky OV, Ushenko AG, Вurkovets DN, Ushenko YA. Automatic polarimetric system for early medical diagnosis by biotissue testing. Optica Applicata. 2002;32(4):603-12. 

40. Ангельский ОВ, Ушенко АГ, Архелюк АД, Ермоленко СБ, Бурковец ДН.  О структуре матриц преобразования лазерного излучения биофракталами.  Квантовая электроника. 1999;29(3):235-8. 

41. Ushenko AG. Polarization introscopy of phase-inhomogeneous layers. Proc SPIE. 2002;4900:1323-6.                                                  

42. Angelsky OV, Ushenko AG, Burkovets DN, Pishak VP, Pishak OV. Laser polarimetry of pathological changes in biotissues. Proc SPIE. 2002;4900:1045-9.              

43. Ushenko AG, Pishak VP, Pishak OV, Olar OI, Yermolenko SB, Prydij AG, et al. Mueller matrices mapping of biological tissue architectonics. Proc SPIE. 2004;5477:422-9.        

44. Ushenko AG. 2D phase tomography of biotissues: I. Topological structure value of birefringence. Proc SPIE. 2004;5477:438-9.     

45. Ushenko AG. 2D phase tomography of biotissues: II. Polarization visualization and selection of biotissue image two-layer scattering medium. Proc SPIE. 2004;5477:450-6.  





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