Analysis of methods and systems of laser polarimetry for reproduction of anisotropic parameters of biological layers

Authors

  • N.I. Zabolotna Vinnytsia National Technical University
  • V.V. Sholota Vinnytsia National Technical University
  • A.I. Kolivoshko Vinnytsia National Technical University

DOI:

https://doi.org/10.31649/1681-7893-2018-36-2-60-71

Keywords:

optical diagnostics, biological layer, biological tissue, reproduction of anisotropic parameters, laser polarimetry, imaging muiller-matrix polarimetry

Abstract

Classification of methods and means of laser polarimetry of biological tissues (liquids) is described, methods and means of imaging mueller-matrix polarimetry for reproduction of anisotropic characteristics of biological layers are analyzed. According to the results of the analysis factors of possible increase of reliability of diagnostics of pathological changes of biological objects in application of polarization technologies are determined.

 

Author Biographies

N.I. Zabolotna, Vinnytsia National Technical University

к.т.н., професор, в.о. завідувача кафедри лазерної та оптикоелектронної техніки

V.V. Sholota, Vinnytsia National Technical University

студентка 3 курсу бакалаврату факультету комп’ютерних систем та автоматики

A.I. Kolivoshko, Vinnytsia National Technical University

аспірант кафедри лазерної та оптико-електронної техніки

References

Khayrullina A.Ya. (1996). Optical and biophysical parameters of biocides in norm and pathology, methods of their determination in the visible and near infrared spectral regions based on multiple scattering. Engineering Fiction Magazine, 69, 3, 390-398.

Tuchin V.V. (2012). Biophysical optics. Methods of light scattering in medical diagnostics. M .: Fizmatlit.

Ushenko O.G., Ushenko Yu.O., Tomka Yu.Ya. etc. (2010). Fundamentals of laser polarimetry. Biological human tissues. Ed. O.G. Austere Chernivtsi: Chernivtsi National Park un

Ushenko O.G., Boychuk T.M., Dubolazov O.V. etc. (2011). Fundamentals of laser polarimetry. Biological fluids. Ed. O.G. Ushenko, T.M. Boychuk Chernivtsi: Chernivtsi National Park un

N. Ghosh, I.A. Vitkin, (2011). Tissue polarimetry: concepts, challenges, applications, and outlook. Journal of Biomedical Optics, 16, 11.

Tuchin V.V. (2016). Polarized light interaction with tissues. Journal of Biomedical Optics, 21, 7.

Sanaz Alalia, Alex Vitkin, (2015). Polarized light imaging in biomedicine: emerging Mueller matrix methods for bulk tissue assessment. Journal of Biomedical Optics, 2015, 20, 6.

Zabolotna N.I. (2010). Analytical foundations of two-dimensional mullier-matrix tomography of optically thick multilayered biological tissues. Correlation and fractal approaches. Measuring and computing engineering in technological processes, 2, 157- 163.

Zabolotna NI, Pavlov SV, Oliinichenko BP (2011). System of Phase Muller-Matrix Tomography of Polycrystalline Networks of Biological Fabrics. Clinical informatics and telemedicine, 7, 8, 70-75.

NI Zabolotna, SV Pavlov, VV Sholota, S.Ye. Tuzhansky, (2011). Orientation system of the muiller-matrix tomography of polycrystalline networks of biological crystals. Photobiology and Photomedicine, 2, 100 - 106.

N.I. Zabolotna, R.Y. Dovhaliuk (2013). Orientational tomography of optical axes directions. Distributions of multilayer biological tissues. Birefringent polycrystalline networks. Proc SPIE, 8873; do: 10.1117 / 12.2048634.

NI Zabolotna, SV Pavlov, (2014). Diagnostic possibilities of orientational and phase-muiller-matrix tomography of polycrystalline blood plasma networks. Photobiology and photomedicine, 3.4, 101- 106.

N.I. Zabolotna, S.V. Pavlov, K.O. Radchenko, V.A. Stasenko, W. Wójcik, N. Kussambayeva, (2015). Diagnostic efficiency of mueller-matrix polarization reconstruction system of the phase structure of the liver tissue. Proc SPIE, 9816; doi: 10.1117/12.2229018.

NI Zabolotna, D.Yu. Lokotey, BP Oliynychenko, (2016). Intellectual system of polarization mapping of blood plasma films in diagnostics of oncological state of mammary glands. Optoelectronic information and energy technologies, 31, 1, 39-46.

NI Zabolotna, V.V. Shoalte, (2017). Intelligent analysis of data in the system of muiller-matrix mapping of blood plasma in identifying stomach cancer. Optoelectronic information and energy technologies, 33, 1, 40-48.

Korotaev V.V. (2012). Polarization devices. St. Petersburg: St. Petersburg State Institute of Precision Mechanics and Optics.

J.S. Tyo, D.L. Goldstein, D.B. Chenault [et al.], (2006). Review of passive imaging polarimetry for remote sensing applications. Applied Optics, 45, 22, 5453 5469.

Azzam R.M. (1997). Mueller-matrix ellipsometry: a review, in polarization: measurement, analysis, and remote sensing. Proceedings of SPIE, 3121, 396-405.

Shutov AM (2006). Methods of optical astro-polarimetry. M .: KomKniga.

Klimov O.S. (2010). Adaptive polarimetry of sequential probing of homogeneous anisotropic objects: diss. ... Candidate tech Sciences: 01.04.05.

Ushenko O.G., Peresunk O.P., Senyutovich R.V. etc. (2010). Laser polarimetry of biological tissues. Diagnosis of tumors of female reproductive organs. Ed. O.G. Ushenko, O.P. Peresunka, R.V. Senyutovich Chernivtsi: Chernivtsi National Park un.

Ya.I. Shop, MI Bondar, (2004). Measurement of optical activity on video polarimeters. Journal of Physical Research, 8, 2, 122-126.

S.E. Tuzhansky, G.L. Lysenko, (2011). Laser video polarimeter systems for automated control of parameters of heterogeneous biotinkins: monograph. Vinnitsa: VNTU.

Hüllst G.V. (1961). Scattering of light by small particles; [per. from english T.V. Vodopianova]. M .: Izd. Of foreign. letter

Maria Rosaria Antonelli. (2011). Biomedical applications of polarimetric imaging contrast. Initial studies for scattering media and human tissues. Medical Physics [physics.med-ph]. Ecole Polytechnique X. English. - Access mode: https://pastel.archives-ouvertes.fr/pastel-00652201

J.S. Baba J.R. Chung J.R., A.H. DeLaughter [et al.]. (2002). Development and calibration of an automated Mueller matrix polarization imaging system. Journal of Biomedical Optics, 7, 3, 341 349.

M.W. Kudenov, M.J. Escuti, N. Hagen, [et al.]. (2012). Snapshot imaging Mueller matrix polarimeter using polarization gratings. Optics Letters, 37, 1367 1369.

Sidor Maxim Ivanovich. (2016). Stokes correlometry of coherent radiation fields scattered by optically anisotropic layers: diss. ... Candidate Phys.-math. Sciences: 01.04.05. Chernivtsi

Ye Wang, Honghui He, Jintao Chang [et al.]. (2016). Mueller matrix microscope: A quantitative tool to facilitate detection and fibrosis scorings of liver cirrhosis and cancer tissues. Journal of Biomedical Optics, 21, 7.

Ushenko V.O. (2015). Vector-parametric diagnostics and differentiation of manifestations of optical anisotropy of biological polycrystalline networks: author's abstract. dis for the sciences. Degree Candidate physical weight Sciences: special 01.04.05 "Optics, laser physics". Kiev.

Ushenko Yu.O. (2015). Multifunctional polarization correlation microscopy and laser autofluorescent polarimetry of optically anisotropic biological layers: author's abstract. dis for the sciences. degree doctor mate. Sciences: special 01.04.05 "Optics, laser physics". K.

Savenkov S.М. (2013). The inverse polarimetry problem based on the Müller matrix method: diss. ... doctor of physical and mathematical sciences. Sciences: 01.04.05. K.

Savenkov S.N. (2011). Mueller-matrix characterization of biological tissues. Polarimetric Detection, Characterization and Remote Sensing. The Netherlands: Springer, 437 471.

Tuzhanskyy S.Y. (2007). Method and means of polarization control in biotissue imaging polarimetry. Proceeding of SPIE, 6682, 1 10.

Ushenko O.G., Pishak V.P., Angelsky OV, Ushenko Yu.O. (2007). Laser polarization morphology of biological tissues: statistical and fractal approaches. Chernivtsi: Color - Print.

O.V. Angelsky, V.P. Pishak, A.G. Ushenko [et al.]. (2007). Statistical and fractal structure of biological tissue Mueller matrix images. Optical correlation techniques and applications; Ed. by O. Angelsky. (pp. 213-266) Bellingham: SPIE Press.

Y.A. Ushenko, A.V. Dubolazov, A.O. Karachevtcev, N.I. Zabolotna, (2011). A fractal and statistical analysis of Mueller-matrix images of phase inhomogeneous layers. Proc SPIE, 8134.

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Published

2019-07-08

How to Cite

[1]
N. Zabolotna, V. Sholota, and A. Kolivoshko, “Analysis of methods and systems of laser polarimetry for reproduction of anisotropic parameters of biological layers”, Опт-ел. інф-енерг. техн., vol. 36, no. 2, pp. 60–71, Jul. 2019.

Issue

Vol. 36 No. 2 (2018)

Section

Biomedical Optical And Electronic Systems And Devices

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