Small Amounts of Zinc from Zinc Oxide Particles in Sunscreens Applied Outdoors are Absorbed through Human Skin
Loading...
Date
Authors
Gulson, Brian
McCall, Maxine
Korsch, Michael
Gomez, Laura
Casey, Philip
Oytam, Yalchin
Taylor, Alan
McCulloch, Malcolm
Trotter, Julie
Kinsley, Leslie
Journal Title
Journal ISSN
Volume Title
Publisher
Oxford University Press
Abstract
Metal oxide nanoparticles are commonly used in personal-care formulations as protective agents against exposure to ultraviolet radiation. Although previous research has concluded that nanoparticles do not penetrate healthy skin, it remains contentious whether this conclusion holds under normal conditions of sunscreen use. Humans (n = 20) were exposed to sunscreens containing zinc oxide (ZnO) particles to determine if Zn from the particles was absorbed through skin over five consecutive days under outdoor conditions. Two sunscreens were tested-"nano sunscreen" containing 19-nm nanoparticles and "bulk sunscreen" containing > 100-nm particles. Venous blood and urine samples were collected 8 days before exposure, twice daily during the trial, and 6 days post-exposure. As the first application in nanotechnology studies, stable isotope tracing was used where the ZnO, enriched to > 99% with the stable isotope 68Zn, allowed dermally absorbed zinc to be distinguished from naturally occurring zinc. The overwhelming majority of applied 68Zn was not absorbed, although blood and urine samples from all subjects exhibited small increases in levels of tracer 68Zn. The amount of tracer detected in blood after the 5-day application period was ~1/1000th that of total Zn in the blood compartment. Tracer levels in blood continued to increase beyond the 5-day application phase in contrast to those in urine. Levels of 68Zn in blood and urine from females receiving the nano sunscreen appeared to be higher than males receiving the same treatment and higher than all subjects receiving the bulk sunscreen. It is not known whether 68Zn has been absorbed as ZnO particles or soluble Zn or both.
Description
Citation
Collections
Source
Toxicological Sciences
Type
Book Title
Entity type
Access Statement
License Rights
Restricted until
2037-12-31
Downloads
File
Description