Are Diamond Nanoparticles Cytotoxic?

Finely divided carbon particles, including charcoal, lampblack, and diamond particles, have been used for ornamental and official tattoos since ancient times. With the recent development in nanoscience and nanotechnology, carbon-based nanomaterials (e.g., fullerenes, nanotubes, nanodiamonds) attract...

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Veröffentlicht in:	The journal of physical chemistry. B 2007-01, Vol.111 (1), p.2-7
Hauptverfasser:	Schrand, Amanda M, Huang, Houjin, Carlson, Cataleya, Schlager, John J, Ōsawa, Eiji, Hussain, Saber M, Dai, Liming
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbon - chemistry Cell Line, Tumor Cell Survival Diamond - chemistry Dose-Response Relationship, Drug Fullerenes - chemistry Humans Metal Nanoparticles - chemistry Microscopy, Electron, Transmission Microscopy, Fluorescence Mitochondria - metabolism Nanoparticles Nanotubes - chemistry Particle Size Reactive Oxygen Species
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container_title	The journal of physical chemistry. B
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creator	Schrand, Amanda M Huang, Houjin Carlson, Cataleya Schlager, John J Ōsawa, Eiji Hussain, Saber M Dai, Liming
description	Finely divided carbon particles, including charcoal, lampblack, and diamond particles, have been used for ornamental and official tattoos since ancient times. With the recent development in nanoscience and nanotechnology, carbon-based nanomaterials (e.g., fullerenes, nanotubes, nanodiamonds) attract a great deal of interest. Owing to their low chemical reactivity and unique physical properties, nanodiamonds could be useful in a variety of biological applications such as carriers for drugs, genes, or proteins; novel imaging techniques; coatings for implantable materials; and biosensors and biomedical nanorobots. Therefore, it is essential to ascertain the possible hazards of nanodiamonds to humans and other biological systems. We have, for the first time, assessed the cytotoxicity of nanodiamonds ranging in size from 2 to 10 nm. Assays of cell viability such as mitochondrial function (MTT) and luminescent ATP production showed that nanodiamonds were not toxic to a variety of cell types. Furthermore, nanodiamonds did not produce significant reactive oxygen species. Cells can grow on nanodiamond-coated substrates without morphological changes compared to controls. These results suggest that nanodiamonds could be ideal for many biological applications in a diverse range of cell types.
doi_str_mv	10.1021/jp066387v
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With the recent development in nanoscience and nanotechnology, carbon-based nanomaterials (e.g., fullerenes, nanotubes, nanodiamonds) attract a great deal of interest. Owing to their low chemical reactivity and unique physical properties, nanodiamonds could be useful in a variety of biological applications such as carriers for drugs, genes, or proteins; novel imaging techniques; coatings for implantable materials; and biosensors and biomedical nanorobots. Therefore, it is essential to ascertain the possible hazards of nanodiamonds to humans and other biological systems. We have, for the first time, assessed the cytotoxicity of nanodiamonds ranging in size from 2 to 10 nm. Assays of cell viability such as mitochondrial function (MTT) and luminescent ATP production showed that nanodiamonds were not toxic to a variety of cell types. Furthermore, nanodiamonds did not produce significant reactive oxygen species. 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subjects	Carbon - chemistry Cell Line, Tumor Cell Survival Diamond - chemistry Dose-Response Relationship, Drug Fullerenes - chemistry Humans Metal Nanoparticles - chemistry Microscopy, Electron, Transmission Microscopy, Fluorescence Mitochondria - metabolism Nanoparticles Nanotubes - chemistry Particle Size Reactive Oxygen Species
title	Are Diamond Nanoparticles Cytotoxic?
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