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Optical anisotropy composition of benign and malignant prostate tissues revealed by Mueller-matrix imaging

Oleksii Sieryi, Yuriy Ushenko, V. A. Ushenko, Olexander V. Dubolazov, A.-V. Syvokorovskaya, Oleh Vanchulyak, А. Г. Ушенко, M. P. Gorsky, Yu. Ya. Tomka, Alexander Bykov, Wenjun Yan, Igor Meglinski

2022Biomedical Optics Express20 citationsDOIOpen Access PDF

Abstract

A Mueller matrix imaging approach is employed to disclose the three-dimensional composition framework of optical anisotropy within cancerous biotissues. Visualized by the Mueller matrix technique spatial architecture of optical anisotropy of tissues is characterised by high-order statistical moments. Thus, quantitative analysis of the spatial distribution of optical anisotropy, such as linear and circular birefringence and dichroism, is revealed by using high-order statistical moments, enabling definitively discriminate prostate adenoma and carcinoma. The developed approach provides greater (>90%) accuracy of diagnostic achieved by using either the 3-rd or 4-th order statistical moments of the linear anisotropy parameters. Noticeable difference is observed between prostate adenoma and carcinoma tissue samples in terms of the extinction coefficient and the degree of depolarisation. Juxtaposition to other optical diagnostic modalities demonstrates the greater accuracy of the approach described herein, paving the way for its wider application in cancer diagnosis and tissue characterization.

Topics & Concepts

Mueller calculusProstateAnisotropyPathologyMatrix (chemical analysis)Optical imagingOpticsMedicineMaterials scienceInternal medicinePhysicsCancerScatteringPolarimetryComposite materialOptical Polarization and EllipsometrySpectroscopy Techniques in Biomedical and Chemical ResearchSpectroscopy and Chemometric Analyses
Optical anisotropy composition of benign and malignant prostate tissues revealed by Mueller-matrix imaging | Litcius