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Literature DB >> 22128750

Thickness of multiwalled carbon nanotubes affects their lung toxicity.

Ivana Fenoglio¹, Elisabetta Aldieri, Elena Gazzano, Federico Cesano, Massimiliano Colonna, Domenica Scarano, Gianna Mazzucco, Angelo Attanasio, Yousof Yakoub, Dominique Lison, Bice Fubini.

Abstract

Two samples of highly pure multiwalled carbon nanotubes (MWCNTs) similar in hydrophobicity and surface reactivity were prepared with similar length, <5 μm, but markedly different diameter (9.4 vs 70 nm). The samples were compared for their cytotoxic activity, uptake, and ability to induce oxidative stress (ROS production and intracellular GSH depletion) in vitro in murine alveolar macrophages (MH-S). The in vivo toxicity was evaluated by measuring biochemical (LDH activity and total proteins) and cellular responses in bronchoalveolar lavage (BAL) after intratracheal instillation in rats. Both samples were internalized in MH-S cells. However, thin MWCNTs appeared significantly more toxic than the thicker ones, both in vitro and in vivo, when compared on a mass-dose basis. The data reported herein suggest that the nanotube diameter is an important parameter to be considered in the toxicological assessment of CNTs.

Entities: Chemical Disease Species

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Year: 2011 PMID： 22128750 DOI： 10.1021/tx200255h

Source DB: PubMed Journal: Chem Res Toxicol ISSN： 0893-228X Impact factor: 3.739

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Cited

36 in total

1. Innate Immune Responses to Nanoparticle Exposure in the Lung.

Authors: Elizabeth A Thompson; Brian C Sayers; Ellen E Glista-Baker; Kelly A Shipkowski; Alexia J Taylor; James C Bonner
Journal: J Environ Immunol Toxicol Date: 2014 Jul-Sep

Review 2. Evaluating the mechanistic evidence and key data gaps in assessing the potential carcinogenicity of carbon nanotubes and nanofibers in humans.

Authors: Eileen D Kuempel; Marie-Claude Jaurand; Peter Møller; Yasuo Morimoto; Norihiro Kobayashi; Kent E Pinkerton; Linda M Sargent; Roel C H Vermeulen; Bice Fubini; Agnes B Kane
Journal: Crit Rev Toxicol Date: 2016-08-18 Impact factor: 5.635

3. Differentiation of chemical reaction activity of various carbon nanotubes using redox potential: Classification by physical and chemical structures.

Authors: Shuji Tsuruoka; Hidetoshi Matsumoto; Vincent Castranova; Dale W Porter; Takashi Yanagisawa; Naoto Saito; Shinsuke Kobayashi; Morinobu Endo
Journal: Carbon N Y Date: 2015-12 Impact factor: 9.594

Thickness of multiwalled carbon nanotubes affects their lung toxicity.

1. Innate Immune Responses to Nanoparticle Exposure in the Lung.

Review 2. Evaluating the mechanistic evidence and key data gaps in assessing the potential carcinogenicity of carbon nanotubes and nanofibers in humans.

3. Differentiation of chemical reaction activity of various carbon nanotubes using redox potential: Classification by physical and chemical structures.

Review 4. Mechanisms of carbon nanotube-induced toxicity: focus on oxidative stress.

Review 5. Perturbation of pulmonary immune functions by carbon nanotubes and susceptibility to microbial infection.

6. Combination of small size and carboxyl functionalisation causes cytotoxicity of short carbon nanotubes.

7. ROS evaluation for a series of CNTs and their derivatives using an ESR method with DMPO.

Review 8. Pulmonary toxicity and fibrogenic response of carbon nanotubes.

9. The interaction of asbestos and iron in lung tissue revealed by synchrotron-based scanning X-ray microscopy.

10. Prostate Cancer and Asbestos: A Systematic Review and Meta-Analysis.