ЛАЗЕРНА ФЛУОРЕСЦЕНЦІЯ, ЯК МЕТОД ДІАГНОСТИКИ УРАЖЕННЯ ЕПІТЕЛІАЛЬНОЇ ТКАНИНИ НИРОК ЩУРІВ З ПРИВОДУ ЕКСПЕРИМЕНТАЛЬНОГО ЦУКРОВОГО ДІАБЕТУ

T. M. Boichuk, O. H. Ushenko, M. I. Hrytsiuk

Анотація


У статті наведено можливості лазерної флуоресценції як методу ранньої діагностики ураження епітеліальної тканини нирок лабораторних тварин при моделюванні експериментального цукрового діабету.

Ключові слова


нирки; лазерна флуоресценція; цукровий діабет

Повний текст:

PDF

Посилання


Loboda OM, Dudar IO, Alieksieieva VV. Mekhanizmy rozvytku ta prohresuvannia diabetychnoi nefropatii [Mechanisms of development and progression of diabetic nephropathy]. Klinichna imunolohiia. Alerholohiia. Infektolohiia. 2010; 9-10 (38-39): 46-50 (in Ukrainian).

Rebrov BA. Porazhenie pochek pri sakharnom diabete [Kidney damage in diabetes mellitus]. International Journal of Endocrinology.2011; 2 (34): 51-55 (in Russian).

Angelsky OV, Ushenko AG, Burcovets DN, Ushenko YuA. Polarization visualization and selection of biotissue image twolayer scattering medium. J. Biomed. Opt. 2005; 10 (1): 014010.

Angelskaya AO, Ushenko AG, Ushenko YuA. Polarization phase reconstruction of biological tissue architectonics: Part 4. Coherent introscopy of phase-inhomogeneous surface and layers. Proc. SPIE. 2007; 6635: 66350NP.

Kliger DS, Lewis JW, Randall CE. Polarized Lightin Optics and Spectroscopy. NewYork, USA: Academic Press-Harcourt Brace Jovanovich, 1990; 304 p.

Angelskaya AO, Ushenko YuA, Ushenko Ye. Polarization speckle-reconstruction of biological tissues architectonics: Part 1. Polarization correlometry of birefringence architectonics: singular approach. Proc. SPIE. 2007; 6635: 66350KP.

Ushenko YuA, Dubolazov AV, Karachevtsev AO. Laser polarization fluorescence of optically anisotropic crystals molecular imaging in the differentiation of biological benign and malignant tumors. Proc. SPIE. 2013; 8812: 88120Z.

Tuchin VV. Optics of biological tissues. Methods of light scattering in medical diagnostics. Moscow: FIZMATLIT,2012; 811 (in Russian).

Angelskaya AO, Ushenko AG, Ushenko YuA. Polarization phase reconstruction of biological tissue architectonics: Part 2. Study of polarizing intercorrelative function of coherent images of phase-inhomogeneous layer anisotropy. Proc. SPIE. 2007; 6635: 66350LP.

Brouseau C. Fundamentals of Polarized Light a Statistical Approach. New York, USA: John Wiley & Sons, 1998; 405 p.

Ushenko YA, Dubolazov AV, Karachevtsev AO. Multidimensional Mueller Matrices Microscopy of Biological Crystal Networks Structure. Proc. Fringe 2013. 2014; 855-858.

Angelskaya AO, Ushenko AG, Ushenko YuA. Polarization phase reconstruction of biological tissue architectonics: Part 3. Polarizing-correlative processing of images of statistical objects in the problem of visualization and topology reconstruction of their phase heterogeneity. Proc. SPIE. 2007; 6635: 66350MP.

Angelsky OV, Ushenko AG, Ushenko YuA. Statistical, Correlation and Topological Approaches in Diagnostics of the Structure and Physiological State of Birefringent Biological Tissues. Handbook of Photonics for Biomedical Science. London: CRC Press. 2010: 283-322.

Ushenko YuA, Sidor MI, Pashkovskaia N. Laser polarization-variable autofluorescence of the network of optically anisotropic biological tissues: diagnostics and differentiation of early stages of cancer of cervix uteri. Journal of Innovative Optical Health Sciences. 2014; 07, Issue 03: 1450024.

Chrysostomou A, Lucas PW, Hough JH. Circular polarimetry reveals helical magnetic fields in the young stellar object HH 135-136. Nature. 2007; 450: 71-73.

Ushenko YuA, Arkhelyuk AD, Sidor MI. Laser polarization autofluorescence of endogenous porphyrins of optically anisotropic biological tissues and fluids in diagnostics of necrotic and pathological changes of human organs. Appl. Opt. 2014; 53: B181-B191.

Michl J, Thulstrup EW. Spectroscopy with Polarized Light. NewYork: VCH, 1986; 316 p.

Browne CA, Zerban FW. Physical and Chemical Methods of Sugar Analysis. NewYork, USA: John Wiley & Sons, 1941; 1353 p.

Ushenko YuA, Trifonyuk LYu, Dubolazov AV, Karachevtsev AO. Fourier-domain Jones-matrix mapping of a complex degree of mutual anisotropy in differentiation of biological tissues’ pathological states. Appl. Opt. 2014; 53: B205-B214.

Halenova TI, Konopelniuk VV, Savchuk OM, Ostapchenko LI. Vidtvorennia eksperymentalnoi streptozototsyn-indukovanoi modeli tsukrovoho diabetu 2 typu u shchuriv [Reproduction the experimental streptozotocin-induced model of type 2 diabetes in rats]. Physics of the alive. 2010; 18 (3): 50-54 (in Ukrainian).


Пристатейна бібліографія ГОСТ


1. Лобода О.М. Механізми розвитку та прогресування діабетичної нефропатії / О.М. Лобода, І.О. Дудар, В.В. Алєксєєва // Клінічна імунологія. Алергологія. Інфектологія. – 2010. – № 9-10 (38-39). – С. 46-50.

2. Ребров Б.А. Поражение почек при сахарном диабете / Б.А. Ребров // Международный ендокринолог. ж. – 2011. – № 2(34). – С. 51-55.

3. Polarization visualization and selection of biotissue image twolayer scattering medium / O.V. Angelsky, A.G. Ushenko, D.N. Burcovets, Yu.A. Ushenko // J. Biomed. Opt. – 2005. – Vol. 10, № 1. – P. 014010.

4. Polarization phase reconstruction of biological tissue architectonics: Part 4. Coherent introscopy of phase-inhomogeneous surface and layers / A.O. Angelskaya, A.G. Ushenko, Yu.A. Ushenko [et al.] // Proc. SPIE. – 2007. – Vol. 6635. – P. 66350NP.

5. Kliger D.S. Polarized Lightin Optics and Spectroscopy / D.S. Kliger, J.W. Lewis, C.E. Randall. – NewYork, USA: Academic Press-Harcourt Brace Jovanovich, 1990. – 304 p.

6. Polarization speckle-reconstruction of biological tissues architectonics: Part 1. Polarization correlometry of birefringence architectonics: singular approach / A.O. Angelskaya, Yu.AUshenko, Ye. Ushenko [et al.] // Proc. SPIE. – 2007. – Vol. 6635. – P. 66350KP.

7. Laser polarization fluorescence of optically anisotropic crystals molecular imaging in the differentiation of biological benign and malignant tumors / Yu.A. Ushenko, A.V. Dubolazov, A.O. Karachevtsev [et al.] // Proc. SPIE. – 2013. – Vol. 8812. – P. 88120Z.

8. Тучин В.В. Оптика биологических тканей. Методы рассеяния света в медицинской диагностике / В.В. Тучин. – М: ФИЗМАТЛИТ, 2012. – 811 с.

9. Polarization phase reconstruction of biological tissue architectonics: Part 2. Study of polarizing intercorrelative function of coherent images of phase-inhomogeneous layer anisotropy / A.O. Angelskaya, A.G. Ushenko, Yu.A. Ushenko [et al.] // Proc. SPIE. – 2007. – Vol. 6635. – P. 66350LP.

10. Brouseau C. Fundamentals of Polarized Light a Statistical Approach / C. Brouseau. – New York,USA: John Wiley & Sons, 1998. – 405 p.

11. Multidimensional Mueller Matrices Microscopy of Biological Crystal Networks Structure / Yuriy A. Ushenko, Alexander V. Dubolazov, Artem O. Karachevtsev [et al.] // Proc. Fringe 2013. – 2014. – P. 855-858.

12. Polarization phase reconstruction of biological tissue architectonics: Part 3. Polarizing-correlative processing of images of statistical objects in the problem of visualization and topology reconstruction of their phase heterogeneity / A.O. Angelskaya, A.G. Ushenko, Yu.A. Ushenko [et al.] // Proc. SPIE. – 2007. – Vol. 6635. – P. 66350MP.

13. Statistical, Correlation and Topological Approaches in Diagnostics of the Structure and Physiological State of Birefringent Biological Tissues / O.V. Angelsky, A.G. Ushenko, Yu.A. Ushenko [et al.] // Handbook of Photonics for Biomedical Science; Ed. by Valery V. Tuchin – London: CRC Press. – 2010. – P. 283-322.

14. Laser polarization-variable autofluorescence of the network of optically anisotropic biological tissues: diagnostics and differentiation of early stages of cancer of cervix uteri / Yu.A. Ushenko, M.I. Sidor, N. Pashkovskaia [et al.] // Journal of Innovative Optical Health Sciences. – 2014. – Vol. 07, Issue 03. – P. 1450024.

15. Chrysostomou A. Circular polarimetry reveals helical magnetic fields in the young stellar object HH 135-136 / A. Chrysostomou, P.W. Lucas, J.H. Hough // Nature. – 2007. – № 450. – P. 71-73.

16. Laser polarization autofluorescence of endogenous porphyrins of optically anisotropic biological tissues and fluids in diagnostics of necrotic and pathological changes of human organs / Yu.A. Ushenko, A.D. Arkhelyuk, M.I. Sidor [et al.] // Appl. Opt. – 2014. – № 53. – P. B181-B191.

17. Michl J. Spectroscopy with Polarized Light / J. Michl, E.W. Thulstrup. – NewYork: VCH, 1986. – 316 p.

18. Physical and Chemical Methods of Sugar Analysis / C.A. Browne, F.W. Zerban. – NewYork, USA: John Wiley & Sons, 1941 – 1353 p.

19. Fourier-domain Jones-matrix mapping of a complex degree of mutual anisotropy in differentiation of biological tissues’ pathological states / Yu.A. Ushenko, L.Yu. Trifonyuk, A.V. Dubolazov, A.O. Karachevtsev // Appl. Opt. – 2014. – № 53. – P. B205-B214.

20. Галенова Т.І. Відтворення експериментальної стрептозотоцин-індукованої моделі цукрового діабету 2 типу у щурів / Т.І. Галенова, В.В. Конопельнюк, О.М. Савчук, Л.І. Остапченко // Фізика живого. – 2010. – Т. 18, № 3. – С. 50-54.



Посилання

  • Поки немає зовнішніх посилань.


Creative Commons License
Ця робота ліцензована Creative Commons Attribution-NonCommercial 4.0 International License.

ISSN 1727-0847 (Print)
ISSN 1993-5897 (On-line)