Coherence Domain Optical Methods in Biomedical Science and Clinical Applications V 2001
DOI: 10.1117/12.427886
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Tissue structure and blood microcirculation monitoring by speckle interferometry and full-field correlometry

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Cited by 12 publications
(24 citation statements)
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“…For many tissues, µ t is much greater than (µ a + µ s ′). Therefore, in certain situations, it is impossible to detect pure ballistic photons (photons that do not experience scattering), but forward scattered photons retain their initial polarization and can be used for imaging purpose [5,9,10,[71][72][73][74][75][76][77]. There was experimentally demonstrated that laser radiation retains linear polarization on the level of P L ≤ 0.1 within 2.5l tr .…”
Section: Multiple Scatteringmentioning
confidence: 99%
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“…For many tissues, µ t is much greater than (µ a + µ s ′). Therefore, in certain situations, it is impossible to detect pure ballistic photons (photons that do not experience scattering), but forward scattered photons retain their initial polarization and can be used for imaging purpose [5,9,10,[71][72][73][74][75][76][77]. There was experimentally demonstrated that laser radiation retains linear polarization on the level of P L ≤ 0.1 within 2.5l tr .…”
Section: Multiple Scatteringmentioning
confidence: 99%
“…The polarization imaging is a prospective direction in tissue optics [5,9,10,[71][72][73][74][75][76][77]. The registration of two-dimensional polarization patterns for the backscattering of a polarized incident narrow laser beam is the basis for this technique.…”
Section: Multiple Scatteringmentioning
confidence: 99%
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“…In particular, for the nucleus the refractive index is n nc = 1.39 [8], and for the cytoplasm n 0 = 1.35-1.37 [3]. The scattering particles (organelles, protein fibrils, membranes, and globules) have greater density of proteins and lipids and, hence, higher refractive index (n s = 1.39-1.47) in comparison with the base substance of the cytoplasm [6]. The refractive index values of the connective tissue fibrils lie in the range 1.41-1.53 and depend upon the degree of hydration of their major component, the collagen [9].…”
Section: Introduction: Fundamentals Of Optical Clearing Of Tissues Anmentioning
confidence: 99%
“…In fibrous tissues (stroma of eye sclera and cornea, dermis, dura mater, connective tissue of vascular walls, fibrous components of muscle tissue and mammary gland, cartilage, tendon, etc.) the scattering is caused by the refractive index difference between the interstitial fluid or cytoplasm and the extensive chains of scleroproteins (collagen, elastin, and reticulin fibrils) [3,6]. The refractive index values for nuclei and cytoplasm organelles of animal cells, containing nearly the same amount of proteins and nucleic acids, lie within the relatively narrow interval from 1.38 to 1.41 [7].…”
Section: Introduction: Fundamentals Of Optical Clearing Of Tissues Anmentioning
confidence: 99%