Biomedical Engineering Reference
In-Depth Information
Gilbert, B., S. C. Fakra, T. Xia, S. Pokhrel, L. Madler, and A. E. Nel. 2012. The fate of
ZnO nanoparticles administered to human bronchial epithelial cells.
ACS Nano
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Gojova, A., B. Guo, R. S. Kota, J. C. Rutledge, I. M. Kennedy, and A. I. Barakat. 2007.
Induction of inflammation in vascular endothelial cells by metal oxide nanoparticles:
Effect of particle composition.
Environ Health Perspect
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Gosens, I., J. A. Post, L. J. de la Fonteyne, E. H. Jansen, J. W. Geus, F. R. Cassee, and W. H. de
Jong. 2010. Impact of agglomeration state of nano- and submicron sized gold particles
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Part Fibre Toxicol
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Gurr, J. R., A. S. Wang, C. H. Chen, and K. Y. Jan. 2005. Ultrafine titanium dioxide particles
in the absence of photoactivation can induce oxidative damage to human bronchial epi-
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Haase, A., H. F. Arlinghaus, J. Tentschert, H. Jungnickel, P. Graf, A. Mantion, F. Draude, S.
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A. Luch. 2011. Application of laser postionization secondary neutral mass spectrom-
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nanosilver in human macrophages and cellular responses.
ACS Nano
5 (4):3059-3068.
Haase, A., S. Rott, A. Mantion, P. Graf, J. Plendl, A. F. Thunemann, W. P. Meier, A. Taubert,
A. Luch, and G. Reiser. 2012. Effects of silver nanoparticles on primary mixed neu-
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Hackenberg, S., G. Friehs, M. Kessler, K. Froelich, C. Ginzkey, C. Koehler, A. Scherzed,
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induce DNA damage in human peripheral blood lymphocytes.
Environ Mol Mutagen
52 (4):264-268.
Hackenberg, S., F. Z. Zimmermann, A. Scherzed, G. Friehs, K. Froelich, C. Ginzkey, C.
Koehler, M. Burghartz, R. Hagen, and N. Kleinsasser. 2011b. Repetitive exposure to
zinc oxide nanoparticles induces DNA damage in human nasal mucosa mini organ cul-
tures.
Environ Mol Mutagen
52 (7):582-589.
Huang, C. C., R. S. Aronstam, D. R. Chen, and Y. W. Huang. 2010. Oxidative stress, calcium
homeostasis, and altered gene expression in human lung epithelial cells exposed to ZnO
nanoparticles.
Toxicol
In Vitro 24 (1):45-55.
Humbles, A. A., C. M. Lloyd, S. J. McMillan, D. S. Friend, G. Xanthou, E. E. McKenna, S.
Ghiran, N. P. Gerard, C. Yu, S. H. Orkin, and C. Gerard. 2004. A critical role for eosino-
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Iavicoli, I., V. Leso, L. Fontana, and A. Bergamaschi. 2011. Toxicological effects of titanium
dioxide nanoparticles: A review of in vitro mammalian studies.
Eur Rev Med Pharmacol
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Jaganathan, H. and B. Godin. 2012. Biocompatibility assessment of Si-based nano- and micro-
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Adv Drug Deliv Rev
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Jeng, H. A. and J. Swanson. 2006. Toxicity of metal oxide nanoparticles in mammalian cells.
J Environ Sci Health A Tox Hazard Subst Environ Eng
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Johnston, H. J., G. R. Hutchison, F. M. Christensen, S. Peters, S. Hankin, and V. Stone. 2009.
Identification of the mechanisms that drive the toxicity of TiO
(2)
particulates: The contri-
bution of physicochemical characteristics.
Part Fibre Toxicol
6 (1):33.
Kao, Y. Y., Y. C. Chen, T. J. Cheng, Y. M. Chiung, and P. S. Liu. 2012. Zinc oxide nanopar-
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Toxicol Sci
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Kermanizadeh, A., G. Pojana, B. K. Gaiser, R. Birkedal, D. Bilanicova, H. Wallin, K. A.
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assessment of engineered nanomaterials using a hepatocyte cell line: Cytotoxicity, pro-
inflammatory cytokines and functional markers.
Nanotoxicology
7 (3):301-313.
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