ICON Web & News
Virtual Journal
Everything
Resources
Virtual Journal
Analyze Database
ICON Reports
ICON Backgrounders
Glossary
Policy Reports
Links
Quick Search:
Keywords:
Search:
Search Using OECD Database
Details
Return to Previous Page
Addition or Correction
Title:
In Vivo Skin Penetration of Quantum Dot Nanoparticles in the Murine Model: The Effect of UVR
Date:
8/2008
Link to Journal Abstract
Abstract:
Abstract: Ultraviolet radiation (UVR) has widespread effects on the biology and integrity of the skin barrier. Research on the mechanisms that drive these changes, as well as their effect on skin barrier function, has been ongoing since the 1980s. However, no studies have examined the impact of UVR on nanoparticle skin penetration. Nanoparticles (NP) are commonly used in sunscreens and other cosmetics, and since consumer use of sunscreen is often applied to sun damaged skin, the effect of UVR on NP skin penetration is a concern due to potential toxicity. In this study, we investigate NP skin penetration by employing an in vivo semiconductor quantum dot nanoparticle (QD) model system. This model system improves NP imaging capabilities and provides additional primary interest due to widespread and expanding use of QD in research applications and manufacturing. In our experiments, carboxylated QD were applied to the skin of SKH-1 mice in a glycerol vehicle with and without UVR exposure. The skin collection and penetration patterns were evaluated 8 and 24 h after QD application using tissue histology, confocal microscopy, and transmission electron microscopy (TEM) with EDAX analysis. Low levels of penetration were seen in both the non-UVR exposed mice and the UVR exposed mice. Qualitatively higher levels of penetration were observable in the UVR exposed mice. These results are the first for in vivo QD skin penetration, and provide important insight into the ability of QD to penetrate intact and UVR compromised skin barrier. Our findings raise concern that NP of similar size and surface chemistry, such as metal oxide NP found in sunscreens, may also penetrate UV damaged skin.
Non-technical Summary:
This study examines the effect of ultraviolet light in facilitating nanoparticle penetration of skin using mice and quantum dots.
Content Emphasis
Peer Reviewed Journal Article
Exposure Or Hazard Target
Mammalian
Exposure Pathway
Dermal/Mucous Membrane
Method Of Study
In Vivo
Paper Type
Hazard
Particle Type
Semiconductor
Production Method
Engineered
Risk Exposure Group
Consumers
Target Audience
Technical Research
Citation:
Mortensen, L. J.; Oberdorster, G.; Pentland, A. P.; DeLouise, L. A. Nano Lett. 8 (9), 2779-2787, 2008,
Publication:
Nano Letters
Author:
Mortensen, L. J.; Oberdorster, G.; Pentland, A. P.; DeLouise, L. A.
Volume:
8
Number:
9
Pages:
2779 - 2787
Last updated on September 30, 2008
Permalink
Join Us
|
About
|
Newsroom
|
Working Groups
|
Projects
|
Resources
|
Virtual Journal
|
Events
|
Logout
This work is supported in part by the Nanoscale Science and Engineering Initiative of the National Science Foundation
under NSF Award Number EEC-0118007.
Why Join Us?
Mission and Strategy
Background
Organization
Sponsors
Participants
Contact Us
ICON Releases
News
Media Alert
RSS
Governance
Knowledge Base
Best Practices
Communications
Virtual Journal
Analyze Database
ICON Reports
ICON Backgrounders
Glossary
Policy Reports
Links
Council Events
Other Events
Virtual Journal
Analyze Database
The GoodNanoGuide
Nano EHS Research Needs
Current Practices Survey