All Stories

  1. Mueller-matrix-based polarization imaging and quantitative assessment of optically anisotropic polycrystalline networks

    Article • PLoS ONE, May 2019, PLOS

    Professor Igor Meglinski

  2. Assisted Medication Management in Elderly Care Using Miniaturised Near-Infrared Spectroscopy

    Article • Proceedings of the ACM on Interactive Mobile Wearable and Ubiquitous Technologies, July 2018, ACM (Association for Computing Machinery)

    Professor Igor Meglinski

  3. Bare laser-synthesized Au-based nanoparticles as nondisturbing surface-enhanced Raman scattering probes for bacteria identification

    Article • Journal of Biophotonics, April 2018, Wiley

    Professor Igor Meglinski

  4. Assessment of the dynamics of human glymphatic system by near-infrared spectroscopy

    Article • Journal of Biophotonics, December 2017, Wiley

    Professor Igor Meglinski, Vesa Korhonen, Lukasz Surazynski

  5. Special Section Guest Editorial: Polarized Light for Biomedical Applications

    Article • Journal of Biomedical Optics, July 2016, SPIE

    Professor Igor Meglinski

  6. Backscattering of linearly polarized light from turbid tissue-like scattering medium with rough surface

    Article • Journal of Biomedical Optics, July 2016, SPIE

    Professor Igor Meglinski

  7. Probing the Red Blood Cells Aggregating Force With Optical Tweezers

    Article • IEEE Journal of Selected Topics in Quantum Electronics, May 2016, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Igor Meglinski

  8. Plasmon-Resonant Gold Nanostars With Variable Size as Contrast Agents for Imaging Applications

    Article • IEEE Journal of Selected Topics in Quantum Electronics, May 2016, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Igor Meglinski

  9. New insight in quantitative analysis of vascular permeability during immune reaction (Conference Presentation)

    Article • April 2016, SPIE

    Professor Igor Meglinski

  10. Cloud-based Monte Carlo modelling of BSSRDF for the rendering of human skin appearance (Conference Presentation)

    Article • April 2016, SPIE

    Professor Igor Meglinski

  11. Towards understanding speckle pattern formation in optical coherence tomography (Conference Presentation)

    Article • April 2016, SPIE

    Professor Igor Meglinski

  12. RBC aggregation dynamics in autologous plasma and serum studied with double-channel optical tweezers

    Article • April 2016, SPIE

    Professor Igor Meglinski

  13. Optical tweezers study of red blood cell aggregation and disaggregation in plasma and protein solutions

    Article • Journal of Biomedical Optics, March 2016, SPIE

    Professor Igor Meglinski

  14. Polarization sensitive optical biopsy with diffusely reflected polarized light

    Article • January 2016, Optical Society of America (OSA)

    Professor Igor Meglinski

  15. Spatial evolution of depolarization in homogeneous turbid media within the differential Mueller matrix formalism

    Article • Optics Letters, November 2015, Optical Society of America (OSA)

    Professor Igor Meglinski

  16. Imaging of subchondral bone by optical coherence tomography upon optical clearing of articular cartilage

    Article • Journal of Biophotonics, June 2015, Wiley

    Professor Igor Meglinski

  17. A simple approach for non-invasive transcranial optical vascular imaging (nTOVI)

    Article • Journal of Biophotonics, April 2015, Wiley

    Professor Igor Meglinski

  18. Evaluation of path-history-based fluorescence Monte Carlo method for photon migration in heterogeneous media

    Article • Optics Express, December 2014, Optical Society of America (OSA)

    Professor Igor Meglinski

  19. Application of circularly polarized light for non-invasive diagnosis of cancerous tissues and turbid tissue-like scattering media

    Article • Journal of Biophotonics, October 2014, Wiley

    Professor Igor Meglinski, Mike Eccles

  20. Two electric field Monte Carlo models of coherent backscattering of polarized light

    Article • Journal of the Optical Society of America A, October 2014, Optical Society of America (OSA)

    Professor Igor Meglinski

  21. Monitoring of interaction of low-frequency electric field with biological tissues upon optical clearing with optical coherence tomography

    Article • Journal of Biomedical Optics, August 2014, SPIE

    Professor Igor Meglinski

  22. Dermal Component–Based Optical Modeling of Skin Translucency: Impact on Skin Color

    Article • July 2014, Taylor & Francis

    Professor Igor Meglinski

  23. Ear swelling test by using laser speckle imaging with a long exposure time

    Article • Journal of Biomedical Optics, June 2014, SPIE

    Professor Igor Meglinski

  24. Diffusing-wave polarimetry for tissue diagnostics

    Article • March 2014, SPIE

    Professor Igor Meglinski, Mike Eccles

  25. Propagation and scattering of vector light beam in turbid scattering medium

    Article • March 2014, SPIE

    Professor Igor Meglinski

  26. Comparison of two Monte Carlo models of propagation of coherent polarized light in turbid scattering media

    Article • March 2014, SPIE

    Professor Igor Meglinski

  27. Enhanced diagnostic of skin conditions by polarized laser speckles: phantom studies and computer modeling

    Article • March 2014, SPIE

    Professor Igor Meglinski

  28. Imaging of the interaction of low frequency electric fields with biological tissues by optical coherence tomography

    Article • March 2014, SPIE

    Professor Igor Meglinski

  29. Acousto-optic imaging using quantum memories in cryogenic rare earth ion doped crystals

    Article • March 2014, SPIE

    Professor Igor Meglinski

  30. Propagation of coherent polarized light in turbid highly scattering medium

    Article • Journal of Biomedical Optics, February 2014, SPIE

    Professor Igor Meglinski

  31. Polarized Light Biosensing

    Article • January 2014, Optical Society of America (OSA)

    Professor Igor Meglinski

  32. Propagation of Coherent Polarized Light in Turbid Tissue-like Scattering Medium

    Article • January 2014, Optical Society of America (OSA)

    Professor Igor Meglinski

  33. Transcutaneous immunization using microneedles and cubosomes: Mechanistic investigations using Optical Coherence Tomography and Two-Photon Microscopy

    Article • Journal of Controlled Release, December 2013, Elsevier

    Professor Igor Meglinski

  34. Imaging of the interaction of low-frequency electric fields with biological tissues by optical coherence tomography

    Article • Optics Letters, July 2013, Optical Society of America (OSA)

    Professor Igor Meglinski

  35. Monte Carlo Modeling of Photon Migration for the Needs of Biomedical Optics and Biophotonics

    Article • July 2013, Taylor & Francis

    Professor Igor Meglinski

  36. Imaging of subcutaneous microcirculation vascular network by double correlation Optical Coherence Tomography

    Article • Laser & Photonics Review, May 2013, Wiley

    Professor Igor Meglinski

  37. Using peer-to-peer network for on-line Monte Carlo computation of fluence rate distribution

    Article • February 2013, SPIE

    Professor Igor Meglinski

  38. Speckle pattern texture analysis method to measure surface roughness

    Article • February 2013, SPIE

    Professor Igor Meglinski

  39. Depolarization of light by rough surface of scattering phantoms

    Article • February 2013, SPIE

    Professor Igor Meglinski

  40. Screening Cancer Aggressiveness by Using Circularly Polarized Light

    Article • January 2013, Optical Society of America (OSA)

    Professor Igor Meglinski, Mike Eccles

  41. Diffusing Wave Spectroscopy: Application for Blood Diagnostics

    Article • November 2012, Springer Science + Business Media

    Professor Igor Meglinski

  42. Peer-to-peer Monte Carlo simulation of photon migration in topical applications of biomedical optics

    Article • Journal of Biomedical Optics, September 2012, SPIE

    Professor Igor Meglinski

  43. Human tissue color as viewed in high dynamic range optical spectral transmission measurements

    Article • Biomedical Optics Express, August 2012, Optical Society of America (OSA)

    Professor Igor Meglinski

  44. Field of a point source in a semi-infinite elastic medium

    Article • Waves in Random and Complex Media, August 2012, Taylor & Francis

    Professor Igor Meglinski

  45. Online Monte Carlo based calculator of human skin spectra and color

    Article • March 2012, SPIE

    Professor Igor Meglinski

  46. Micro-encapsulated sensors for in vivo assessment of the oxidative stress in aquatic organisms

    Article • March 2012, SPIE

    Professor Igor Meglinski

  47. Helicity of circular polarized light backscattered from biological tissues influenced by optical clearing

    Article • March 2012, SPIE

    Professor Igor Meglinski

  48. Application of optical coherence tomography for assessment of transcutaneous vaccine delivery

    Article • March 2012, SPIE

    Professor Igor Meglinski

  49. Front Matter: Volume 8337

    Article • March 2012, SPIE

    Professor Igor Meglinski

  50. Eco-photonics: application of optical diagnostic modalities for non-invasive monitoring and evaluation of stress conditions of aquatic organisms

    Article • March 2012, SPIE

    Professor Igor Meglinski

  51. The Mapping of Tissues Scattering Properties on the Poincaré Sphere

    Article • January 2012, Optical Society of America (OSA)

    Professor Igor Meglinski, Mike Eccles

  52. Color of Human Tissues as Viewed in a Higher Range of Spectra

    Article • January 2012, Optical Society of America (OSA)

    Professor Igor Meglinski

  53. Label free in vivo laser speckle imaging of blood and lymph vessels

    Article • Journal of Biomedical Optics, January 2012, SPIE

    Professor Igor Meglinski

  54. Online Monte Carlo for biomedical optics

    Article • SPIE Newsroom, November 2011, SPIE

    Professor Igor Meglinski

  55. Online object oriented Monte Carlo computational tool for the needs of biomedical optics

    Article • Biomedical Optics Express, July 2011, Optical Society of America (OSA)

    Professor Igor Meglinski

  56. In vivo characterization of tumor and tumor vascular network using multi-modal imaging approach

    Article • Journal of Biophotonics, June 2011, Wiley

    Professor Igor Meglinski

  57. Functional imaging of tumor vascular network in small animal models

    Article • June 2011, SPIE

    Professor Igor Meglinski

  58. Optical diagnostic test of stress conditions of aquatic organisms

    Article • Journal of Biophotonics, May 2011, Wiley

    Professor Igor Meglinski

  59. Propagation of circular polarized light in a scattering medium influenced by optical clearing

    Article • February 2011, SPIE

    Professor Igor Meglinski

  60. Multimodal diagnostic approach for functional imaging of tumor vascular network and blood microcirculation

    Article • February 2011, SPIE

    Professor Igor Meglinski

  61. Monte Carlo simulation of photon migration in turbid random media based on the object-oriented programming paradigm

    Article • February 2011, SPIE

    Professor Igor Meglinski

  62. Functional imaging of tumor vascular network in small animal models

    Article • January 2011, Optical Society of America (OSA)

    Professor Igor Meglinski

  63. COHERENT BACKSCATTERING OF CIRCULARLY POLARIZED LIGHT FROM A DISPERSE RANDOM MEDIUM

    Article • Progress In Electromagnetics Research M, January 2011, EMW Publishing

    Professor Igor Meglinski

  64. Coherent back scattering of optical radiation in a turbid scattering medium for diagnostic purposes

    Article • October 2010, SPIE

    Professor Igor Meglinski

  65. GPU-accelerated object-oriented Monte Carlo modeling of photon migration in turbid media

    Article • October 2010, SPIE

    Professor Igor Meglinski

  66. Multi-modal optical diagnostic approach for non-invasive imaging of blood and lymphatic vascular networks in vivo

    Article • October 2010, SPIE

    Professor Igor Meglinski

  67. Simulation of optical coherence tomography images by Monte Carlo modeling based on polarization vector approach

    Article • Optics Express, September 2010, Optical Society of America (OSA)

    Professor Igor Meglinski

  68. Helicity flip of the backscattered circular polarized light

    Article • February 2010, SPIE

    Professor Igor Meglinski

  69. In vivo measurement of skin blood microcirculation using diffusing wave correlation technique

    Article • February 2010, SPIE

    Professor Igor Meglinski

  70. APPLICATION OF DOPPLER OPTICAL COHERENCE TOMOGRAPHY IN RHEOLOGICAL STUDIES: BLOOD FLOW AND VESSELS MECHANICAL PROPERTIES EVALUATION

    Article • Journal of Innovative Optical Health Sciences, October 2009, World Scientific Pub Co Pte Lt

    Professor Igor Meglinski

  71. Laser light scattering in turbid media Part II: Spatial and temporal analysis of individual scattering orders via Monte Carlo simulation

    Article • Optics Express, July 2009, Optical Society of America (OSA)

    Professor Igor Meglinski

  72. Dyes Assay for Measuring Physicochemical Parameters

    Article • Analytical Chemistry, March 2009, American Chemical Society (ACS)

    Professor Igor Meglinski

  73. Application of optical coherence tomography for imaging of scaffold structure and micro-flows characterization

    Article • September 2008, SPIE

    Professor Igor Meglinski

  74. Simulation of polarization-sensitive optical coherence tomography images by a Monte Carlo method

    Article • Optics Letters, July 2008, Optical Society of America (OSA)

    Professor Igor Meglinski

  75. Measurements of absorbance of hemoglobin solutions incubated with glucose

    Article • June 2008, SPIE

    Professor Igor Meglinski

  76. Image reconstruction of the location of macro-inhomogeneity in random turbid medium by using artificial neural networks

    Article • July 2007, SPIE

    Professor Igor Meglinski

  77. Investigation of glucose-hemoglobin interaction by optical coherence tomography

    Article • May 2007, SPIE

    Professor Igor Meglinski

  78. Measurements of refractive index and near infrared absorbance of hemoglobin solutions incubated with glucose

    Article • May 2007, SPIE

    Professor Igor Meglinski

  79. Near-infrared absorbance measurements of hemoglobin solutions incubated with glucose

    Article • February 2007, SPIE

    Professor Igor Meglinski

  80. Laser light scattering in turbid media Part I: Experimental and simulated results for the spatial intensity distribution

    Article • Optics Express, January 2007, Optical Society of America (OSA)

    Professor Igor Meglinski

  81. IMAGE RECONSTRUCTION OF THE LOCATION OF MACRO-INHOMOGENEITY IN RANDOM TURBID MEDIUM BY USING ARTIFICIAL NEURAL NETWORKS

    Article • January 2007, Optical Society of America (OSA)

    Professor Igor Meglinski

  82. Stochastic Modeling of Coherent Effects in Multiple Scattering

    Article • January 2006, Optical Society of America (OSA)

    Professor Igor Meglinski

  83. New model for light propagation in highly inhomogeneous polydisperse turbid media with applications in spray diagnostics

    Article • Optics Express, November 2005, Optical Society of America (OSA)

    Professor Igor Meglinski

  84. Numerical simulation of coherent effects under multiple scattering of linearly polarized light (Invited Paper)

    Article • June 2005, SPIE

    Professor Igor Meglinski

  85. Crossed source–detector geometry for a novel spray diagnostic: Monte Carlo simulation and analytical results

    Article • Applied Optics, May 2005, Optical Society of America (OSA)

    Professor Igor Meglinski

  86. Monte Carlo simulation of coherent effects in mulitple scattering

    Article • August 2004, SPIE

    Professor Igor Meglinski

  87. Automatic enhancement of skin fluorescence localization due to refractive index matching

    Article • July 2004, SPIE

    Professor Igor Meglinski

  88. Amending of fluorescence sensor signal localization in human skin by matching of the refractive index

    Article • Journal of Biomedical Optics, January 2004, SPIE

    Professor Igor Meglinski

  89. Monte Carlo Method in optical diagnostics of skin and skin tissues

    Article • December 2003, SPIE

    Professor Igor Meglinski

  90. Diffusing wave spectroscopy and its application for monitoring of skin blood microcirculation

    Article • October 2003, SPIE

    Professor Igor Meglinski

  91. Skin fluorescence model based on the Monte Carlo technique

    Article • October 2003, SPIE

    Professor Igor Meglinski

  92. A novel Monte Carlo method for the optical diagnostics of skin

    Article • October 2003, SPIE

    Professor Igor Meglinski

  93. Automatic amending of the tattoo sensor fluorescence localization by refractive index matching

    Article • October 2003, SPIE

    Professor Igor Meglinski

  94. Method Monte Carlo in the Optical Diagnostics of Skin

    Article • January 2003, Optical Society of America (OSA)

    Professor Igor Meglinski

  95. Automatic amending of the 'tattoo'-sensor fluorescence localization by the refractive index matching

    Article • January 2003, Optical Society of America (OSA)

    Professor Igor Meglinski

  96. Quantitative assessment of skin layers absorption and skin reflectance spectra simulation in the visible and near-infrared spectral regions

    Article • Physiological Measurement, October 2002, Institute of Physics Publishing

    Professor Igor Meglinski

  97. Skin blood microcirculation probing: experiments and theoretical remarks

    Article • July 2002, SPIE

    Professor Igor Meglinski

  98. Monte Carlo simulation using polarized light in biological tissue

    Article • July 2002, SPIE

    Professor Igor Meglinski

  99. Monte Carlo modeling of polarized light propagation in a biological tissue

    Article • June 2002, SPIE

    Professor Igor Meglinski

  100. Application of low-scattering photon correlation spectroscopy for blood monitoring

    Article • October 2001, SPIE

    Professor Igor Meglinski

  101. Sampling volume produced by shallow optical probes in skin reflectance measurements

    Article • August 2001, SPIE

    Professor Igor Meglinski

  102. Application of diffusing wave spectroscopy for in-vitro blood testing and skin microcirculation measurements

    Article • August 2001, SPIE

    Professor Igor Meglinski

  103. Modeling of skin reflectance spectra

    Article • May 2001, SPIE

    Professor Igor Meglinski

  104. Estimation of the optical sampling volume for skin reflectance measurements

    Article • November 2000, SPIE

    Professor Igor Meglinski

  105. Analysis of reflectance spectra for skin oxygenation measurements

    Article • November 2000, SPIE

    Professor Igor Meglinski

  106. Determination of absorption coefficient of skin melanin in visible and NIR spectral region

    Article • May 2000, SPIE

    Professor Igor Meglinski

  107. Analyses of the sample volume for fiber optics and confocal detecting probe in backscattered spectral investigations of the skin

    Article • April 2000, SPIE

    Professor Igor Meglinski

  108. Computational model of human skin for reflected spectra simulation

    Article • April 2000, SPIE

    Professor Igor Meglinski

  109. Influence of complex multilayered highly scattering medium on light reflectance

    Article • April 2000, SPIE

    Professor Igor Meglinski

  110. Development of Monte Carlo technique for determination of skin oxygenation by near-infrared spectroscopy

    Article • April 1999, SPIE

    Professor Igor Meglinski

  111. Determination of skin oxygenation by near-infrared spectroscopy: overview

    Article • March 1999, SPIE

    Professor Igor Meglinski

  112. Diffusing-wave spectroscopy of flows

    Article • February 1999, SPIE

    Professor Igor Meglinski

  113. In-vivo measuring of blood-flow changes using diffusing wave correlation techniques

    Article • February 1997, SPIE

    Professor Igor Meglinski

  114. Diffusion of temporal field correlation with selected applications

    Article • February 1996, SPIE

    Professor Igor Meglinski

  115. Simulation of fluorescent measurements in the human skin

    Article • May 1995, SPIE

    Professor Igor Meglinski

  116. Methods of the calculation of radiation intensity within the media with complex geometry

    Article • January 1995, SPIE

    Professor Igor Meglinski

  117. Fluorescence spectroscopy in combination with reflectance measurements in human skin examination: what for and how

    Article • January 1995, SPIE

    Professor Igor Meglinski

  118. Methods of calculating radiation intensity within media with complex geometry

    Article • January 1995, SPIE

    Professor Igor Meglinski

  119. Calculation of radiation intensity within biotissue with macroinhomogeneities using a Monte Carlo method

    Article • February 1994, SPIE

    Professor Igor Meglinski

  120. Calculation of radiation intensity within biotissue with macroinhomogeneities

    Article • June 1993, SPIE

    Professor Igor Meglinski