0000000000637039

AUTHOR

Maris Kuzminskis

showing 4 related works from this author

Towards combined multispectral, FLIM and Raman imaging for skin diagnostics

2020

To explore challenges for further improvement of diagnostic performance, a project aimed at development of technology for tri-modal skin imaging by combining multispectral, fluorescence lifetime and Raman band imaging was initiated. In this study, each of the mentioned imaging modalities has been preliminary tested and updated. Four different multispectral imaging devices were tested on color standards. Picosecond laser-excited fluorescence lifetime imaging equipment was examined on ex-vivo skin samples. Finally, a new Raman spectroscopy setup with 785 nm laser was launched and tested on cell cultures and ex-vivo skin. Advantages and specific features of the tri-modal skin imaging are discu…

Fluorescence-lifetime imaging microscopyMaterials sciencebusiness.industryMultispectral imageRaman imagingLaserFluorescencelaw.inventionsymbols.namesakelawRaman bandPicosecondsymbolsOptoelectronicsRaman spectroscopybusinessMultimodal Biomedical Imaging XV
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Skin-remitted photon path lengths: experimental study

2020

Skin-remitted picosecond laser pulses were detected at four input-output fiber distances in the spectral range 560-800 nm. After deconvolution procedures, distributions and mean values of the remitted photon path lengths in forearm skin were analyzed.

PhotonMaterials sciencePicosecond laserintegumentary systembusiness.industryPhoton countingnervous system diseasesOpticsimmune system diseasesTemporal resolutionPath (graph theory)Forearm skinDiffuse reflectionDeconvolutionbusinessBiophotonics Congress: Biomedical Optics 2020 (Translational, Microscopy, OCT, OTS, BRAIN)
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Remitted photon path lengths in human skin: in-vivo measurement data

2020

The remitted photon path lengths in human skin can be estimated by modelling; however, there are very few experimental data available to validate the simulations. This study exploited the photon time of flight method where picosecond laser pulses at seven wavelength bands in the spectral range 560-800 nm were launched into in-vivo forearm skin of 10 volunteers via an optical fiber. The pulses of back-scattered light were detected via another optical fiber placed at variable distance (1, 8, 12, 16 or 20 mm) from the input fiber, with subsequent analysis of their shapes for all 35 spectral-spatial combinations. Using a deconvolution algorithm, the distribution functions of remitted photon arr…

Physics0303 health sciencesOptical fiberPhotonbusiness.industryPhysics::Optics01 natural sciencesAtomic and Molecular Physics and OpticsPhoton countinglaw.invention010309 optics03 medical and health sciencesTime of flightWavelengthOpticsPath lengthlaw0103 physical sciencesDeconvolutionbusinessAbsorption (electromagnetic radiation)030304 developmental biologyBiotechnologyBiomedical Optics Express
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Remitted photon path length in human skin, skin phantoms and cell cultures

2020

An experimental method for remitted photon path length measurements in scattering media has been developed and tested on human skin and skin neoplasms, skin phantoms and cell cultures. The photon time-of-flight (PTOF) measurement method was used in this study, where the photon travel time was converted into path length. Remitted light signals were obtained using a picosecond broadband laser and a set of narrowband interference filters in spectral rang 520 – 760 nm. Five different distances of 1, 8, 12, 16 and 20 mm between the source and detector fibers were used. Measurements were performed at different wavelengths and distance combinations; they were taken from human skin and skin malform…

WavelengthTime of flightMaterials sciencePhotonOpticsPath lengthbusiness.industryScatteringPicosecondDetectorHuman skinbusinessTissue Optics and Photonics
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