CHARACTERISTIC FEATURES OF MUELLER MATRIX PATTERNS FOR POLARIZATION SCATTERING MODEL OF BIOLOGICAL TISSUES

E DU; HONGHUI HE; NAN ZENG; CELONG LIU; YIHONG GUO; RAN LIAO; MINGHAO SUN; YONGHONG HE; HUI MA

doi:10.1142/s1793545813500284

[1] P. Shukla, A. Pradhan, "Mueller decomposition images for cervical tissue: Potential for discriminating normal and dysplastic states," Opt. Express 17(3), 1600-1609 (2009).

[2] M. Antonelli, A. Pierangelo, T. Novikova, P. Validire, A. Benali, B. Gayet, A. Martino, "Mueller matrix imaging of human colon tissue for cancer diagnostics: How Monte Carlo modeling can help in the interpretation of experimental data," Opt. Express 18(10), 10200-10208 (2010).

[3] A. Pierangelo, A. Benali, M. Antonelli, T. Novikova, P. Validire, B. Gayet, A. Martino, "Ex-vivo characterization of human colon cancer by Mueller polarimetric imaging," Opt. Express 19(2), 1582-1593 (2011).

[4] A. Pierangelo, S. Manhas, A. Benali, C. Fallet, J. Totobenazara, M. Antonelli, T. Novikova, B. Gayet, A. Martino, P. Validire, "Multispectral Mueller polarimetric imaging detecting residual cancer and cancer regression after neoadjuvant treatment for colorectal carcinomas," J. Biomed. Opt. 18(4), 046014 (2013).

[5] H. He, N. Zeng, D. Li, R. Liao, H. Ma, "Quantitative Mueller matrix polarimetry techniques for biological tissues," J. Innov. Opt. Health Sci. 5(3), 1250017 (2012).

[6] M. Yamanari, Y. Yasuno, T. Yatagai, M. Itoh, "Analysis of the polarization dependence of multiple backscattering light from red blood cells," Proc. SPIE 5695, 58-65 (2005).

[7] V. Sankaran, K. Sch€onenberger, J. T. Walsh, Jr., D. J. Maitland, "Polarization discrimination of coherently propagating light in turbid media," Appl. Optics. 38(19), 4252-4261 (1999).

[8] B. D. Cameron, M. J. Rakovic, M. Mehrübeoglu, G. W. Kattawar, S. Rastegar, L. V. Wang, G. L. Cot-e, "Measurement and calculation of the two-dimensional backscattering Mueller matrix of a turbid medium," Opt. Lett. 23(7), 485-487 (1998).

[9] M. J. Rakovic, G. W. Kattawar, M. Mehrubeoglu, B. D. Cameron, S. Rastegar, L. V. Wang, G. L. Cot-e, "Light backscattering polarization patterns from turbid media: Theory and experiment," Appl. Opt. 38(15), 3399-3408 (1999).

[10] Y. Deng, S. Zeng, Q. Luo, Z. Zhang, L. Fu, "Numerical study of the effects of scatterer sizes and distributions on multiple backscattered intensity patterns of polarized light," Opt. Lett. 33(1), 77-79 (2008).

[11] X. Wang, G. Yao, L. V. Wang, "Monte Carlo model and single-scattering approximation of the propagation of polarized light in turbid media containing glucose," Appl. Opt. 41(4), 792-801 (2002).

[12] X. Wang, L. V. Wang, "Propagation of polarized light in birefringent turbid media: A Monte Carlo study," J. Biomed. Opt. 7(3), 279-290 (2002).

[13] C. Baravian, J. Dillet, F. Caton, J. P. Decruppe, "Birefringence determination in turbid media," Phys. Rev. E 75(3), 032501 (2007).

[14] M. F. G. Wood, X. Guo, I. A. Vitkin, "Polarized light propagation in multiply scattering media exhibiting both linear birefringence and optical activity: Monte Carlo model and experimental methodology," J. Biomed. Opt. 12(1), 014029 (2007).

[15] O. V. Angelsky, A. G. Ushenko, Y. G. Ushenko, Y. Y. Tomka, "Polarization singularities of biological tissues images," J. Biomed. Opt. 11(5), 054030 (2006).

[16] O. V. Angelsky, Y. Y. Tomka, A. G. Ushenko, Y. G. Ushenko, Y. A. Ushenko, "Investigation of 2D Mueller matrix structure of biological tissues for preclinical diagnostics of their pathological states," J. Phys. D-Appl. Phys. 38(23), 4227-4235 (2005).

[17] O. V. Angelsky, G. V. Demianovsky, A. G. Ushenko, D. N. Burkovets, Y. A. Ushenko, "Wavelet analysis of two-dimensional birefringence images of architectonics in biotissues for diagnosing pathological changes," J. Biomed. Opt. 9(4), 679-690 (2004).

[18] Y. A. Ushenko, O. I. Telenga, A. P. Peresunko, O. K. Numan, "New parameter for describing and analyzing the optical-anisotropic properties of biological tissues," J. Innov. Opt. Health Sci. 4(4), 463-475 (2011).

[19] O. V. Angelsky, A. G. Ushenko, Y. A. Ushenko, "Investigation of the correlation structure of biological tissue polarization images during the diagnostics of their oncological changes," Phys. Med. Biol. 50(20), 4811-4822 (2005).

[20] T. Yun, N. Zeng, W. Li, D. Li, X. Jiang, H. Ma, "Monte Carlo simulation of polarized photon scattering in anisotropic media," Opt. Express 17(19), 16590-16602 (2009).

[21] H. He, N. Zeng, R. Liao, T. Yun, W. Li, Y. He, H. Ma, "Application of sphere-cylinder scattering model to skeletal muscle," Opt. Express 18(14), 15104-15112 (2010).

[22] H. He, N. Zeng, W. Li, T. Yun, R. Liao, Y. He, H. Ma, "Two dimensional backscattering Mueller matrix of sphere-cylinder scattering medium," Opt. Lett. 35(14), 2323-2325 (2010).

[23] H. He, N. Zeng, E. Du, Y. Guo, D. Li, R. Liao, Y. He, H. Ma, "Two-dimensional and surface backscattering Mueller matrices of anisotropic sphere-cylinder scattering media: A quantitative study of influence from fibrous scatterers," J. Biomed. Opt. 18(4), 046002 (2013).

[24] E. Du, H. He, N. Zeng, Y. Guo, R. Liao, Y. He, H. Ma, "Two-dimensional backscattering Mueller matrix of sphere-cylinder birefringence media," J. Biomed. Opt. 17(12), 126016 (2012).