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Title:
In vivo assessment of CdSe–ZnS quantum dots: coating dependent bioaccumulation and genotoxicity
Date:
10/2012
Link to Journal Abstract
Abstract:
Semiconductor nanocrystals, or Quantum Dots (QDs), have gained considerable attention due to their unique size-dependent optical and electronic properties that make them attractive for a wide range of applications, including biology and nanomedicine. Their widespread use, however, poses urgent questions about their potential toxicity, especially because of their heavy metal composition that could cause harmful effects to human health and environment. In this work, we evaluated in vivo the long-term toxicity of CdSe–ZnS QDs with different surface coatings, probing oral administration in the model system Drosophila melanogaster. In particular, we found that all the differently coated QDs significantly affect the lifespan of treated Drosophila populations and induce a marked increase in reactive oxygen species (ROS) levels. Furthermore, we observed that these QDs induce severe genotoxic effects and increased rate of apoptosis in Drosophila haemocytes. These toxic effects were found to be mainly related to the in vivo degradation of QDs with consequent release of Cd2+ ions, while the coating of QDs can modulate their bioaccumulation in the organism, partly decreasing their overall toxicity.
Non-technical Summary:
In this work, the authors evaluated in vivo the long-term toxicity of CdSe–ZnS Quantum Dots (QDs) with different surface coatings, probing oral administration in the model system Drosophila melanogaster.
Content Emphasis
Peer Reviewed Journal Article
Exposure Or Hazard Target
Aquatic Ecosystem
Exposure Pathway
Other/Unspecified
Method Of Study
Environmental Study
Paper Type
Hazard
Particle Type
Semiconductor
Production Method
Engineered
Risk Exposure Group
Ecosystem
Target Audience
Technical Research
Citation:
Nanoscale, 2012, 4(20): 6401-6407
Publication:
Nanoscale
Author:
Galeone A, Vecchio G, Malvindi MA, Brunetti V, Cingolani R, Pompa PP
Volume:
4
Number:
20
Pages:
6401-6407
Last updated on December 12, 2012
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This work is supported in part by the Nanoscale Science and Engineering Initiative of the National Science Foundation
under NSF Award Number EEC-0118007.
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