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-List Of Titles -Quantum dot penetration into viable human skin

Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.14/182084

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Title
Quantum dot penetration into viable human skin
Related
Nanotoxicology, Vol. 6, No. 2, (2012), p.173-185
DOI
10.3109/17435390.2011.569092
Publisher
Informa Healthcare
Date
2012
Author/Creator
Prow, Tarl W
Author/Creator
Monteiro-Riviere, Nancy A
Author/Creator
Erdmann, Detlev
Author/Creator
Riviere, Jim E
Author/Creator
Roberts, Michael S
Author/Creator
Inman, Alfred O
Author/Creator
Grice, Jeffrey E
Author/Creator
Chen, Xianfeng
Author/Creator
Zhao, Xin
Author/Creator
Sanchez, Washington H
Author/Creator
Gierden, Audrey
Author/Creator
Kendall, Mark A. F
Author/Creator
Zvyagin, Andrei V
Description
Systematic studies probing the effects of nanoparticle surface modification and formulation pH are important in nanotoxicology and nanomedicine. In this study, we use laser-scanning fluorescence confocal microscopy to evaluate nanoparticle penetration in viable excised human skin that was intact or tape-stripped. Quantum dot (QD) fluorescent nanoparticles with three surface modifications: Polyethylene glycol (PEG), PEG-amine (PEG-NH₂) and PEG-carboxyl (PEG-COOH) were evaluated for human skin penetration from aqueous solutions at pH 7.0 and at pHs of solutions provided by the QD manufacturer: 8.3 (PEG, PEG-NH₂) and 9.0 (PEG-COOH). There was some penetration into intact viable epidermis of skin for the PEG-QD at pH 8.3, but not at pH 7.0 nor for any other QD at the pHs used. Upon tape stripping 30 strips of stratum corneum, all QDs penetrated through the viable epidermis and into the upper dermis within 24 h.
Description
13 page(s)
Subject Keyword
Exposure
Subject Keyword
Nanoparticles
Subject Keyword
Nanotoxicology
Subject Keyword
Surface chemistry
Resource Type
journal article
Organisation
Macquarie University. Dept. of Physics and Astronomy
Identifier
http://hdl.handle.net/1959.14/182084
Identifier
ISSN:1743-5390
Identifier
mq_res-ext-2-s2.0-84856642046
Language
eng
Reviewed
Reviewed
Save/E-mail Citation
Citation Format
E-mail Address
Subject
"Nanotoxicology"
 
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