Igor Meglinski
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Quantitative assessment of skin layers absorption and skin reflectance spectra simulation in the visible and near-infrared spectral regions
IV Meglinski, SJ Matcher
Physiological measurement 23 (4), 741, 2002
Computer simulation of the skin reflectance spectra
IV Meglinski, SJ Matcher
Computer methods and programs in biomedicine 70 (2), 179-186, 2003
Modelling the sampling volume for skin blood oxygenation measurements
IV Meglinsky, SJ Matcher
Medical and Biological Engineering and Computing 39 (1), 44-50, 2001
Application of circularly polarized light for non‐invasive diagnosis of cancerous tissues and turbid tissue‐like scattering media
B Kunnen, C Macdonald, A Doronin, S Jacques, M Eccles, I Meglinski
Journal of biophotonics 8 (4), 317-323, 2015
Online object oriented Monte Carlo computational tool for the needs of biomedical optics
A Doronin, I Meglinski
Biomedical optics express 2 (9), 2461-2469, 2011
Laser light scattering in turbid media Part I: Experimental and simulated results for the spatial intensity distribution
E Berrocal, DL Sedarsky, ME Paciaroni, IV Meglinski, MA Linne
Optics express 15 (17), 10649-10665, 2007
Optical coherence tomography imaging depth enhancement by superficial skin optical clearing
SG Proskurin, IV Meglinski
Laser Physics Letters 4 (11), 824, 2007
Simulation of optical coherence tomography images by Monte Carlo modeling based on polarization vector approach
M Kirillin, I Meglinski, V Kuzmin, E Sergeeva, R Myllylä
Optics express 18 (21), 21714-21724, 2010
Influence of refractive index matching on the photon diffuse reflectance
DY Churmakov, IV Meglinski, DA Greenhalgh
Physics in Medicine & Biology 47 (23), 4271, 2002
Plant photonics: application of optical coherence tomography to monitor defects and rots in onion
IV Meglinski, C Buranachai, LA Terry
Laser Physics Letters 7 (4), 307, 2010
Analysis of skin tissues spatial fluorescence distribution by the Monte Carlo simulation
DY Churmakov, IV Meglinski, SA Piletsky, DA Greenhalgh
Journal of Physics D: Applied Physics 36 (14), 1722, 2003
Monte Carlo simulation of reflection spectra of random multilayer media strongly scattering and absorbing light
IV Meglinskii
Quantum Electronics 31 (12), 1101, 2001
Imaging of subcutaneous blood vessels and flow velocity profiles by optical coherence tomography
M Bonesi, SG Proskurin, IV Meglinski
Laser Physics 20 (4), 891-899, 2010
The enhancement of confocal images of tissues at bulk optical immersion
IV Meglinski, DY Churmakov, AN Bashkatov, EA Genina, VV Tuchin
arXiv preprint physics/0401104, 2004
Analysis of the spatial distribution of detector sensitivity in a multilayer randomly inhomogeneous medium with strong light scattering and absorption by the Monte Carlo method
IV Meglinskiĭ, SD Matcher
Optics and Spectroscopy 91 (4), 654-659, 2001
Peer-to-peer Monte Carlo simulation of photon migration in topical applications of biomedical optics
A Doronin, I Meglinski
Journal of Biomedical Optics 17 (9), 090504, 2012
Is mean blood saturation a useful marker of tissue oxygenation?
CE Thorn, SJ Matcher, IV Meglinski, AC Shore
American Journal of Physiology-Heart and Circulatory Physiology 296 (5 …, 2009
Optical tweezers study of red blood cell aggregation and disaggregation in plasma and protein solutions
K Lee, M Kinnunen, MD Khokhlova, EV Lyubin, AV Priezzhev, I Meglinski, ...
Journal of biomedical optics 21 (3), 035001, 2016
Human tissue color as viewed in high dynamic range optical spectral transmission measurements
GI Petrov, A Doronin, HT Whelan, I Meglinski, VV Yakovlev
Biomedical optics express 3 (9), 2154-2161, 2012
Study of the possibility of increasing the probing depth by the method of reflection confocal microscopy upon immersion clearing of near-surface human skin layers
IV Meglinskii, AN Bashkatov, EA Genina, DY Churmakov, VV Tuchin
Quantum Electronics 32 (10), 875, 2002
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