Mueller matrix decomposition for polarized light assessment of biological tissues

Ghosh, Nirmalya; Wood, Michael L.; Li, Shuhong; Weisel, Richard D.; Wilson, Brian C.; Li, Ren‐Ke; Vitkin, I. Alex

doi:10.1002/jbio.200810040

Cited by 150 publications

(128 citation statements)

References 47 publications

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“…where the retardance R andR are the norm and normalized vector, respectively; a 1 , a 2 , a 3 are the real components ofR, and the corresponding retarder is given by [1], [2], [4] …”

Section: Retarder and Diattenuatormentioning

confidence: 99%

“…In addition, they are also used in plasma physics, LED technology, and microwave transmission systems [1]. Recently, they have been deployed in biomedical applications, such as the measurement of noninvasive tissue glucose levels, monitoring regenerative treatments of myocardial infarction, and distinguishing normal and cancerous gastric samples [2].…”

Section: Introductionmentioning

confidence: 99%

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Pol-SAR Classification Based on Generalized Polar Decomposition of Mueller Matrix

Wang

Zhang

Turnbull

et al. 2016

IEEE Geosci. Remote Sensing Lett.

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Abstract-In this letter, we investigate an application of a generalized polar decomposition of the Mueller matrix for polarimetric synthetic aperture radar (Pol-SAR) classification. Six rollinvariant parameters (diattenuation, retardance, polarization power, depolarization anisotropy, depolarization power, and transmittance) are selected as features for the classification of scattering types. Experimental results using the AIRSAR data over Flevoland show that, for most field types, the D−R−A Δ − Δ−m 00 set provides the highest classification accuracy, followed by the D−R−P Δ −Δ−m 00 set which also provides better accuracy than the widely used H −α−(δ −γ)−A−span set. The proposed method would be valuable for Pol-SAR interpretation.

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“…where the retardance R andR are the norm and normalized vector, respectively; a 1 , a 2 , a 3 are the real components ofR, and the corresponding retarder is given by [1], [2], [4] …”

Section: Retarder and Diattenuatormentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Pol-SAR Classification Based on Generalized Polar Decomposition of Mueller Matrix

Wang

Zhang

Turnbull

et al. 2016

IEEE Geosci. Remote Sensing Lett.

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“…Estas muestras pretenden simular el efecto de la interacción de la luz con tejidos orgánicos, ampliamente analizados en biología y medicina [11]. Para su elaboración fueron utilizadas cubetas de laboratorio Hellma de base cuadrada, con una capacidad de 3.5 ml y 10 mm de lado.…”

Section: 2b Muestras En Volumenunclassified

“…La simulación del comportamiento de los tejidos biológicos para la obtención de datos "in vivo", está siendo el objeto de diversos análisis polarimétricos recientes en grupos de investigación dedicados a biología y medicina [5,11]. El carácter quiral y de medio denso (es decir, dispersor y selectivamente absorbente) de los tejidos puede ser simulado mediante disolución de sales o azúcares en sustancias que contienen partículas en suspensión.…”

Section: Medios Densosunclassified

The polar decomposition method in the polarimetric study of light scattered by deterministic profiles and dense media

Sanz¹

2012

Opt. Pura Apl.

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El método de descomposición polar en el estudio polarimétrico de la luz difundida por perfiles deterministas y medios densosThe polar decomposition method in the polarimetric study of light scattered by deterministic profiles and dense media RESUMEN:En este trabajo el método de Descomposición Polar (DP) es utilizado en la interpretación de matrices de Mueller (mMs) experimentales obtenidas en medidas polarimétricas empleando distintos medios difusores. Se muestra como la información polarimétrica puede ser expresada en función de una serie de parámetros con una interpretación física directa. En particular, para perfiles 2D microestructurados en superficies planas, el parámetro de retardo es un claro indicador de la presencia de estructuras tanto sobre la superficie como inscritas en ella. Por otra parte, en sistemas difusores más complejos, como son los medios densos, altamente difusores y no deterministas, la extracción de la despolarización mediante la DP permite realizar un estudio sobre los parámetros característicos de los componentes puros del sistema y obtener la actividad óptica subyacente del mismo. Estos resultados constituyen un claro ejemplo de las capacidades de la DP en el análisis de las mMs.Palabras clave: Descomposición Polar, Matriz de Mueller, Polarimetría, Scattering, Polarización. ABSTRACT:In this research, the Polar Decomposition (PD) method is applied to experimental Mueller Matrices (Mms) measured for light scattering systems. Polarization information is expressed through a set of parameters of easier physical interpretation than pure Mms. Particulary, for 2D microstructured systems on flat surfaces, the first derivative of the retardation parameter, , is a clear indication of the presence of structures either built-on or dug-in the surface. On the other hand, in more complex scattering systems, like dense media -highly scattering and non deterministic-, PD can separate the depolarization from the pure polarimetric information. These results constitute an example of the capabilities of the PD approach to Mm analysis. This is able not only to extract the depolarization effect but also to analyze the remaining (pure) matrix.

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“…Additional theoretical validation tests were also performed on Monte Carlo-generated Mueller matrices [70]. Following successful validation, this approach was explored for monitoring of myocardial tissue regeneration following stem cell therapy (through linear birefringence measurement and quantification) with early indications showing promise for polarized light monitoring of regenerative treatment of heart [71]. Initial studies on the use of this approach for quantification of optical rotation caused by chiral molecules in turbid medium (like, for example, glucose in human tissue) have also yielded very encouraging results [71].…”

Section: Quantitative Mueller Matrix Polarimetry Applied To Biomedicamentioning

confidence: 99%

Turbid medium polarimetry in biomedical imaging and diagnosis

Ghosh

Banerjee

Soni

2011

Eur. Phys. J. Appl. Phys.

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Abstract. Studies on polarization properties of scattered light from a random medium like biological tissue have received considerable attention because polarization can be used as an effective tool to discriminate against multiply scattered light (acting as a gating mechanism) and thus can facilitate high resolution imaging through tissue. Further, the polarization properties of scattered light from tissue contain wealth of morphological and functional information of potential biomedical importance. However, in a complex random medium like tissue, numerous complexities due to multiple scattering and simultaneous occurrences of many scattering and polarization events present formidable challenges both in terms of accurate measurements and in terms of analysis of the tissue polarimetry signal. Several studies have therefore been conducted in the recent past to develop appropriate measurement procedures, suitable light propagation models and polarimetry signal analysis methods to overcome these difficulties. In this review, we focus on some of the recent key developments in this area. Specifically, we describe variety of theoretical and experimental tools, illustrated with selected results, aimed at evaluating the prospect of turbid medium polarimetry for both biomedical imaging and diagnosis.

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Mueller matrix decomposition for polarized light assessment of biological tissues

Cited by 150 publications

References 47 publications

Pol-SAR Classification Based on Generalized Polar Decomposition of Mueller Matrix

Pol-SAR Classification Based on Generalized Polar Decomposition of Mueller Matrix

The polar decomposition method in the polarimetric study of light scattered by deterministic profiles and dense media

Turbid medium polarimetry in biomedical imaging and diagnosis

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