Spectral Line Reflectance and Fluorescence Imaging Device for Skin Diagnostics

Spectral Line Reflectance and Fluorescence Imaging Device for Skin Diagnostics

The multi-spectral-line imaging concept, which was recently implemented for the snapshot mapping of three main skin chromophores—melanin, oxy-hemoglobin, and deoxy-hemoglobin, is further explored for the snapshot capturing of four spectral line images at wavelengths of 450, 523, 638, and 850 nm, wit...

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Main Authors: Janis Spigulis, Zigmars Rupenheits, Uldis Rubins, Madars Mileiko, Ilze Oshina
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Applied Sciences
Subjects:
multi-spectral-line imaging
fluorescence imaging
non-contact skin diagnostics
Online Access:https://www.mdpi.com/2076-3417/10/21/7472
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spelling doaj-a5018d65ca2d4a8e928b392f1a7811f32020-11-25T04:03:16ZengMDPI AGApplied Sciences2076-34172020-10-01107472747210.3390/app10217472Spectral Line Reflectance and Fluorescence Imaging Device for Skin DiagnosticsJanis Spigulis0Zigmars Rupenheits1Uldis Rubins2Madars Mileiko3Ilze Oshina4Biophotonics Laboratory, Institute of Atomic Physics and Spectroscopy, University of Latvia, LV-1586 Riga, LatviaBiophotonics Laboratory, Institute of Atomic Physics and Spectroscopy, University of Latvia, LV-1586 Riga, LatviaBiophotonics Laboratory, Institute of Atomic Physics and Spectroscopy, University of Latvia, LV-1586 Riga, LatviaBiophotonics Laboratory, Institute of Atomic Physics and Spectroscopy, University of Latvia, LV-1586 Riga, LatviaBiophotonics Laboratory, Institute of Atomic Physics and Spectroscopy, University of Latvia, LV-1586 Riga, LatviaThe multi-spectral-line imaging concept, which was recently implemented for the snapshot mapping of three main skin chromophores—melanin, oxy-hemoglobin, and deoxy-hemoglobin, is further explored for the snapshot capturing of four spectral line images at wavelengths of 450, 523, 638, and 850 nm, with the consecutive acquiring of a 405 nm excited fluorescence image. A corresponding laser-based prototype device was designed and assembled. Processing of the mentioned five images enables obtaining distribution maps of four skin chromophores within the malformation and comparing their mean fluorescence intensity with that of the surrounding healthy skin. This set of information is helpful for dermatologists, cosmetologists, oncologists, and other healthcare professionals to quantify the diagnosis of skin malformations (including cancers) and to follow up the recovery process after therapy. This paper describes the design of the developed proof-of-concept prototype device and initial test results.https://www.mdpi.com/2076-3417/10/21/7472multi-spectral-line imagingfluorescence imagingnon-contact skin diagnostics
collection DOAJ
language English
format Article
sources DOAJ
author Janis Spigulis
Zigmars Rupenheits
Uldis Rubins
Madars Mileiko
Ilze Oshina
spellingShingle Janis Spigulis
Zigmars Rupenheits
Uldis Rubins
Madars Mileiko
Ilze Oshina
Spectral Line Reflectance and Fluorescence Imaging Device for Skin Diagnostics
Applied Sciences
multi-spectral-line imaging
fluorescence imaging
non-contact skin diagnostics
author_facet Janis Spigulis
Zigmars Rupenheits
Uldis Rubins
Madars Mileiko
Ilze Oshina
author_sort Janis Spigulis
title Spectral Line Reflectance and Fluorescence Imaging Device for Skin Diagnostics
title_short Spectral Line Reflectance and Fluorescence Imaging Device for Skin Diagnostics
title_full Spectral Line Reflectance and Fluorescence Imaging Device for Skin Diagnostics
title_fullStr Spectral Line Reflectance and Fluorescence Imaging Device for Skin Diagnostics
title_full_unstemmed Spectral Line Reflectance and Fluorescence Imaging Device for Skin Diagnostics
title_sort spectral line reflectance and fluorescence imaging device for skin diagnostics
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2020-10-01
description The multi-spectral-line imaging concept, which was recently implemented for the snapshot mapping of three main skin chromophores—melanin, oxy-hemoglobin, and deoxy-hemoglobin, is further explored for the snapshot capturing of four spectral line images at wavelengths of 450, 523, 638, and 850 nm, with the consecutive acquiring of a 405 nm excited fluorescence image. A corresponding laser-based prototype device was designed and assembled. Processing of the mentioned five images enables obtaining distribution maps of four skin chromophores within the malformation and comparing their mean fluorescence intensity with that of the surrounding healthy skin. This set of information is helpful for dermatologists, cosmetologists, oncologists, and other healthcare professionals to quantify the diagnosis of skin malformations (including cancers) and to follow up the recovery process after therapy. This paper describes the design of the developed proof-of-concept prototype device and initial test results.
topic multi-spectral-line imaging
fluorescence imaging
non-contact skin diagnostics
url https://www.mdpi.com/2076-3417/10/21/7472
work_keys_str_mv AT janisspigulis spectrallinereflectanceandfluorescenceimagingdeviceforskindiagnostics
AT zigmarsrupenheits spectrallinereflectanceandfluorescenceimagingdeviceforskindiagnostics
AT uldisrubins spectrallinereflectanceandfluorescenceimagingdeviceforskindiagnostics
AT madarsmileiko spectrallinereflectanceandfluorescenceimagingdeviceforskindiagnostics
AT ilzeoshina spectrallinereflectanceandfluorescenceimagingdeviceforskindiagnostics
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