A novel in vivo test method for evaluating the infrared radiation protection provided by sunscreen products

Background Infrared radiation (IR) exposure generates reactive oxygen species and induces matrix metalloproteinase‐1 expression in human skin. Moreover, while not as acute as ultraviolet radiation, repeated infrared irradiation can result in the photoaging of skin. Broad‐spectrum sunscreens can prot...

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Bibliographic Details
Published in:Skin research and technology 2019-11, Vol.25 (6), p.890-895, Article srt.12754
Main Authors: Kim, Su Ji, Bae, Jiyoun, Lee, Sung Eun, Lee, Jun Bae, Park, Chun Ho, Lim, Doo Hyeon, Park, Myeong Sam, Ha, Jaehyoun
Format: Article
Language:English
Subjects:
Adult
Background radiation
Biomedical materials
Body Water - metabolism
clinical study
Color
Cosmetics
Cosmetics - chemistry
Cosmetics - pharmacology
Emulsions
Evaluation
Female
Humans
Hydration
I.R. radiation
In vivo methods and tests
infrared protection factor
Infrared radiation
Infrared Rays
Ingredients
Irradiation
Light sources
Matrix metalloproteinase
Matrix metalloproteinases
Metalloproteinase
Middle Aged
Radiation protection
Reactive oxygen species
Reflectance
reflectance spectroscopy
Skin
Skin - drug effects
Skin - metabolism
Skin - radiation effects
Skin Pigmentation - drug effects
Skin Pigmentation - radiation effects
Sun screens
Sunscreen
Sunscreening Agents - chemistry
Sunscreening Agents - pharmacology
Sunscreens
Ultraviolet radiation
Young Adult
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Summary:Background Infrared radiation (IR) exposure generates reactive oxygen species and induces matrix metalloproteinase‐1 expression in human skin. Moreover, while not as acute as ultraviolet radiation, repeated infrared irradiation can result in the photoaging of skin. Broad‐spectrum sunscreens can protect skin from IR, but no human in vivo test methods for the evaluation of sunscreens' IR protection effect have been developed. We aimed to develop such a method. Materials and Methods We included 155 Korean subjects in our three‐part clinical study. The IR reflectance of subjects' skin was measured using a benchtop model of an IR light source and a reflectance measuring probe. We measured the IR reflectance in relation to skin color and hydration level to set up our experimental conditions. We then calculated the infrared protection factors (IPFs) of cosmetic emulsions as the IR reflectance ratio between cosmetic sunscreen‐applied skin and non‐sunscreen‐applied skin and assessed the relationship between IPFs and the amount of sunscreen ingredients. Finally, this method was validated using several commercial sunscreen cosmetics. Results Skin color and hydration level did not influence the IR reflectance of subjects' skin. The IPFs of cosmetic sunscreens showed a positive correlation with the amount of inorganic sunscreen ingredients. Conclusion In this study, we developed a simple, fast, and ethically acceptable human in vivo test method for evaluating the IPFs of cosmetic sunscreens.
ISSN:0909-752X
1600-0846
DOI:10.1111/srt.12754