Tatiana Sakharova scite author profile

Optical spectroscopy is increasingly used for cancer diagnostics. Tumor detection feasibility in human kidney samples using mid- and near-infrared (NIR) spectroscopy, fluorescence spectroscopy, and Raman spectroscopy has been reported (Artyushenko et al., Spectral fiber sensors for cancer diagnostics in vitro. In Proceedings of the European Conference on Biomedical Optics, Munich, Germany, 21–25 June 2015). In the present work, a simplification of the NIR spectroscopic analysis for cancer diagnostics was studied. The conventional high-resolution NIR spectroscopic method of kidney tumor diagnostics was replaced by a compact optical sensing device constructively represented by a set of four light-emitting diodes (LEDs) at selected wavelengths and one detecting photodiode. Two sensor prototypes were tested using 14 in vitro clinical samples of 7 different patients. Statistical data evaluation using principal component analysis (PCA) and partial least-squares discriminant analysis (PLS-DA) confirmed the general applicability of the LED-based sensing approach to kidney tumor detection. An additional validation of the results was performed by means of sample permutation.

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Synergy Effect of Combining Fluorescence and Mid Infrared Fiber Spectroscopy for Kidney Tumor Diagnostics

Bogomolov

Belikova

Zabaryło

et al. 2017

Sensors

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Matching pairs of tumor and non-tumor kidney tissue samples of four patients were investigated ex vivo using a combination of two methods, attenuated total reflection mid infrared spectroscopy and fluorescence spectroscopy, through respectively prepared and adjusted fiber probes. In order to increase the data information content, the measurements on tissue samples in both methods were performed in the same 31 preselected positions. Multivariate data analysis revealed a synergic effect of combining the two methods for the diagnostics of kidney tumor compared to individual techniques.

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Mid-IR fibre optics spectroscopy in the 3300–600cm−1 range

Artyushenko¹,

Bocharnikov²,

Colquhoun³

et al. 2008

Vibrational Spectroscopy

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Mid‐infrared Fiber Optics for 1 — 18 μm Range

Artyushenko

Bocharnikov²,

Sakharova³

et al. 2014

Optik & Photonik

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Development of infrared (IR) fibers and hollow waveguides (HWGs) was in good progress to meet growing market demands for laser power delivery, flexible IR‐imaging and remote process‐spectroscopy in spectral range from 1 to 18 μm. Parameters of IR‐glass fibers, polycrystalline IR‐fibers (PIR‐fibers) from silver halides and HWGs are compared to enable optimal choice for the production of IR‐cables, spectroscopy probes and multispectral bundles (Fig. 1).

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Development and testing of mid-infrared sensors for in-line process monitoring in biotechnology

Bogomolov

Heßling

Wenzel

et al. 2015

Sensors and Actuators B: Chemical

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