Visible Light Induces Melanogenesis in Human Skin through a Photoadaptive Response.

Visible light (400-700 nm) lies outside of the spectral range of what photobiologists define as deleterious radiation and as a result few studies have studied the effects of visible light range of wavelengths on skin. This oversight is important considering that during outdoors activities skin is ex...

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Main Authors: Manpreet Randhawa, InSeok Seo, Frank Liebel, Michael D Southall, Nikiforos Kollias, Eduardo Ruvolo
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4488093?pdf=render
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spelling doaj-5518322b5b904556a99acf58bba4db3f2020-11-25T01:21:26ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-01106e013094910.1371/journal.pone.0130949Visible Light Induces Melanogenesis in Human Skin through a Photoadaptive Response.Manpreet RandhawaInSeok SeoFrank LiebelMichael D SouthallNikiforos KolliasEduardo RuvoloVisible light (400-700 nm) lies outside of the spectral range of what photobiologists define as deleterious radiation and as a result few studies have studied the effects of visible light range of wavelengths on skin. This oversight is important considering that during outdoors activities skin is exposed to the full solar spectrum, including visible light, and to multiple exposures at different times and doses. Although the contribution of the UV component of sunlight to skin damage has been established, few studies have examined the effects of non-UV solar radiation on skin physiology in terms of inflammation, and limited information is available regarding the role of visible light on pigmentation. The purpose of this study was to determine the effect of visible light on the pro-pigmentation pathways and melanin formation in skin. Exposure to visible light in ex-vivo and clinical studies demonstrated an induction of pigmentation in skin by visible light. Results showed that a single exposure to visible light induced very little pigmentation whereas multiple exposures with visible light resulted in darker and sustained pigmentation. These findings have potential implications on the management of photo-aggravated pigmentary disorders, the proper use of sunscreens, and the treatment of depigmented lesions.http://europepmc.org/articles/PMC4488093?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Manpreet Randhawa
InSeok Seo
Frank Liebel
Michael D Southall
Nikiforos Kollias
Eduardo Ruvolo
spellingShingle Manpreet Randhawa
InSeok Seo
Frank Liebel
Michael D Southall
Nikiforos Kollias
Eduardo Ruvolo
Visible Light Induces Melanogenesis in Human Skin through a Photoadaptive Response.
PLoS ONE
author_facet Manpreet Randhawa
InSeok Seo
Frank Liebel
Michael D Southall
Nikiforos Kollias
Eduardo Ruvolo
author_sort Manpreet Randhawa
title Visible Light Induces Melanogenesis in Human Skin through a Photoadaptive Response.
title_short Visible Light Induces Melanogenesis in Human Skin through a Photoadaptive Response.
title_full Visible Light Induces Melanogenesis in Human Skin through a Photoadaptive Response.
title_fullStr Visible Light Induces Melanogenesis in Human Skin through a Photoadaptive Response.
title_full_unstemmed Visible Light Induces Melanogenesis in Human Skin through a Photoadaptive Response.
title_sort visible light induces melanogenesis in human skin through a photoadaptive response.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description Visible light (400-700 nm) lies outside of the spectral range of what photobiologists define as deleterious radiation and as a result few studies have studied the effects of visible light range of wavelengths on skin. This oversight is important considering that during outdoors activities skin is exposed to the full solar spectrum, including visible light, and to multiple exposures at different times and doses. Although the contribution of the UV component of sunlight to skin damage has been established, few studies have examined the effects of non-UV solar radiation on skin physiology in terms of inflammation, and limited information is available regarding the role of visible light on pigmentation. The purpose of this study was to determine the effect of visible light on the pro-pigmentation pathways and melanin formation in skin. Exposure to visible light in ex-vivo and clinical studies demonstrated an induction of pigmentation in skin by visible light. Results showed that a single exposure to visible light induced very little pigmentation whereas multiple exposures with visible light resulted in darker and sustained pigmentation. These findings have potential implications on the management of photo-aggravated pigmentary disorders, the proper use of sunscreens, and the treatment of depigmented lesions.
url http://europepmc.org/articles/PMC4488093?pdf=render
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