Comparative Metal Oxide Nanoparticle Toxicity Using Embryonic Zebrafish
Leah C. Wehmas,Catherine B. Anders,Jordan Chess,Alex Punnoose,Cliff Pereira,Juliet A. Greenwood,Robert L. Tanguay +6 more
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TLDR
Data from agglomerated MO NPs suggests that the elemental composition and dissolution potential are major drivers of toxicity, and exposure to dissolved Zn2+ may be a major contributor to ZnO toxicity.Abstract:
Engineered metal oxide nanoparticles (MO NPs) are finding increasing utility in the medical field as anticancer agents. Before validation of in vivo anticancer efficacy can occur, a better understanding of whole-animal toxicity is required. We compared the toxicity of seven widely used semiconductor MO NPs made from zinc oxide (ZnO), titanium dioxide, cerium dioxide and tin dioxide prepared in pure water and in synthetic seawater using a five-day embryonic zebrafish assay. We hypothesized that the toxicity of these engineered MO NPs would depend on physicochemical properties. Significant agglomeration of MO NPs in aqueous solutions is common making it challenging to associate NP characteristics such as size and charge with toxicity. However, data from our agglomerated MO NPs suggests that the elemental composition and dissolution potential are major drivers of toxicity. Only ZnO caused significant adverse effects of all MO particles tested, and only when prepared in pure water (point estimate median lethal concentration = 3.5-9.1 mg/L). This toxicity was life stage dependent. The 24 h toxicity increased greatly (~22.7 fold) when zebrafish exposures started at the larval life stage compared to the 24 hour toxicity following embryonic exposure. Investigation into whether dissolution could account for ZnO toxicity revealed high levels of zinc ion (40-89% of total sample) were generated. Exposure to zinc ion equivalents revealed dissolved Zn2+ may be a major contributor to ZnO toxicity.read more
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References
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Comparison of the mechanism of toxicity of zinc oxide and cerium oxide nanoparticles based on dissolution and oxidative stress properties.
Tian Xia,Michael Kovochich,Monty Liong,Lutz Mädler,Lutz Mädler,Benjamin Gilbert,Haibin Shi,Joanne I. Yeh,Jeffrey I. Zink,Andre E. Nel +9 more
TL;DR: The results demonstrate that metal oxide nanoparticles induce a range of biological responses that vary from cytotoxic to cytoprotective and can only be properly understood by using a tiered test strategy such as that developed for oxidative stress and adapted to study other aspects of nanoparticle toxicity.
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Antimicrobial nanomaterials for water disinfection and microbial control: Potential applications and implications
Qilin Li,Shaily Mahendra,Delina Y. Lyon,Lena Brunet,Michael V. Liga,Dong Li,Pedro J. J. Alvarez +6 more
TL;DR: The antimicrobial mechanisms of several nanoparticles are reviewed, their merits, limitations and applicability for water disinfection and biofouling control are discussed, and research needs to utilize novel nanomaterials for water treatment applications are highlighted.