Panagiotis Giannios scite author profile

A multi-wavelength prism coupling refractometer is utilized to measure the angular reflectance of freshly excised human intestinal tissue specimens. Based on reflectance data, the real and imaginary part of the refractive index is calculated via Fresnel analysis for three visible (blue, green, red) and two near-infrared (963 nm and 1551 nm) wavelengths. Averaged values of the complex refractive index and corresponding Cauchy dispersion fits are given for the mucosa, submucosa and serosa layers of the colorectal wall at the normal state. The refractive constants of tumorous and normal mucosa are then cross-compared for the indicative cases of one patient diagnosed with a benign polyp and three patients diagnosed with adenocarcinomas of different phenotype. Significant index contrast exists between the normal and diseased states, indicating the potential use of refractive index as a marker of colorectal dysplasia.

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Visible to near-infrared refractive properties of freshly-excised human-liver tissues: marking hepatic malignancies

Giannios

Toutouzas

Matiatou

et al. 2016

Sci Rep

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The refractive index is an optical constant that plays a significant role in the description of light-matter interactions. When it comes to biological media, refraction is understudied despite recent advances in the field of bio-optics. In the present article, we report on the measurement of the refractive properties of freshly excised healthy and cancerous human liver samples, by use of a prism-coupling technique covering the visible and near-infrared spectral range. Novel data on the wavelength-dependent complex refractive index of human liver tissues are presented. The magnitude of the real and imaginary part of the refractive index is correlated with hepatic pathology. Notably, the real index contrast is pointed out as a marker of discrimination between normal liver tissue and hepatic metastases. In view of the current progress in optical biosensor technologies, our findings may be exploited for the development of novel surgical and endoscopic tools.

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Temperature effects on the viscosity and the wavelength-dependent refractive index of imidazolium-based ionic liquids with a phosphorus-containing anion

Chiappe

Margari

Mezzetta

et al. 2017

Phys. Chem. Chem. Phys.

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A systematic study on the viscosity and refractive index of 1-alkyl-3-methylimidazolium based ionic liquids (alkyl = methyl, butyl and hexyl) combined with three phosphorus containing anions, i.e. dimethylphosphate, methyl methylphosphonate and methylphosphonate, is reported. Experimental measurements account for temperature effects, while the refractive index is determined at multiple wavelengths in the visible and near infrared region. Despite the structural similarity of these anions, significant differences in the physical properties of the resulting ILs are identified, along with the clear trend of viscosity increase - and refractive index decrease - with increasing alkyl chain length on the cation. Ab initio theoretical calculations are carried out to support and rationalise the observed behaviour.

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The embryonic transcription factor Zelda of Drosophila melanogaster is also expressed in larvae and may regulate developmentally important genes

Giannios

Tsitilou

2013

Biochemical and Biophysical Research Communications

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The derivative method of critical-angle refractometry for attenuating media

Koutsoumpos¹,

Giannios²,

Moutzouris³

2020

J. Opt.

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Specular reflectance of monochromatic linearly polarized light, reflected on the interface of a prism coupled to a transparent medium at the critical angle of the transition to total internal reflection, has been long utilized to accurately determine optical constants, such as the refractive index and the dielectric constant, by the so-called ‘derivative method’. However, in its original formulation, the derivative method does not account for the imaginary part of the complex optical constants that chararacterize attenuating media and becomes increasingly inaccurate even for the real part when attenuation grows. We therefore derive a proper analytic extension of the derivative method for attenuating media. Reflectance and angle of incidence at the derivative maximum are the experimental input quantities that yield both parts of the complex dielectric constant for both linear polarizations.

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