In vivo Confocal Raman Spectroscopic Analysis of the Effects of Infrared Radiation in the Human Skin Dermis

Human skin is the outer covering of the body, and its composition changes with overexposure to environmental pollution and solar radiation. Infrared (IR) radiation is capable of penetrating more deeply into the skin producing free radicals causing irreversible damage. Confocal Raman spectroscopy was...

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Veröffentlicht in:	Photochemistry and photobiology 2017-03, Vol.93 (2), p.613-618
Hauptverfasser:	Lopes, Monica Bergamo, Rajasekaran, Ramu, Lopes Cançado, Ana Clara Figueira, Martin, Airton Abrahão
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Sprache:	eng
Schlagworte:	Collagen Infrared radiation Metabolism Skin Spectrum analysis
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creator	Lopes, Monica Bergamo Rajasekaran, Ramu Lopes Cançado, Ana Clara Figueira Martin, Airton Abrahão
description	Human skin is the outer covering of the body, and its composition changes with overexposure to environmental pollution and solar radiation. Infrared (IR) radiation is capable of penetrating more deeply into the skin producing free radicals causing irreversible damage. Confocal Raman spectroscopy was considered as a potential tool for the in vivo analysis of the different metabolic conditions with respect to different depths of the skin. In this regard, this work verifies the influence of infrared radiation on the skin dermis after having been exposed to 432 J cm−2 which corresponds to the dose received in a day in the summer time in a tropical region. This study was performed with 17 female volunteers who were divided into two groups. The marked skin area was exposed twice to IR radiation for a duration of 30 min each with an interval of 30 min. The spectral signatures were collected in the fingerprint region before (T0) and after 60 min (T60) of IR irradiation. The analysis shows that, on average, no significant variations occurred in group I and decreased collagen was observed in group II. However, when considering the effect seen in each individual, collagen degradation was detected in 60% of volunteers. Infrared (IR) radiation is capable of penetrating deeply into the skin producing free radicals and irreversible damage. In this regard, confocal Raman spectroscopy is considered for the in vivo analysis of the different metabolic conditions, and we verify the influence of IR radiation on the skin dermis after having been exposed to 432 J cm−2. On average, no significant variations were observed in group I, and decreased collagen was observed in group II. However, when considered individually, collagen degradation was detected in 60% of volunteers.
doi_str_mv	10.1111/php.12701
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subjects	Collagen Infrared radiation Metabolism Skin Spectrum analysis
title	In vivo Confocal Raman Spectroscopic Analysis of the Effects of Infrared Radiation in the Human Skin Dermis
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