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Osmond-McLeod, M.J., Poland, C.A., Murphy, F., Waddington, L., Morris, H., Hawkins, S.C., Clark, S.,
Aitken, R., McCall, M.J., and Donaldson, K. 2011. Durability and inlammogenic impact of carbon
nanotubes compared with asbestos ibres.
Part. Fibre Toxicol
. 8(1), 15.
Pauluhn, J. 2010a. Subchronic 13-week inhalation exposure of rats to multiwalled carbon nanotubes: toxic
effects are determined by density of agglomerate structures, not ibrillar structures.
Toxicol. Sci
., 113(1),
226-242.
Pauluhn, J. 2010b. Multi-walled carbon nanotubes (Baytubes): Approach for derivation of occupational expo-
sure limit.
Regul. Toxicol. Pharmacol
., 57, 78-89.
Poland, C., Dufin, R., Kinloch, I., Maynard, A.D., Wallace, W., Seaton, A., Stone, V., Brown, S., MacNee, W.,
and Donaldson, K. 2008. Carbon nanotubes introduced into the abdominal cavity of mice show asbestos-
like pathogenicity in a pilot study.
Nat. Nanotechnol
., 3, 423-428.
Porter, A., Gass, M. Muller, K., Skepper, J.N., Midgley, P.A., and Welland, M. 2007. Direct imaging of single-
walled carbon nanotubes in cells.
Nat. Nanotechnol
., 2, 713-717.
Powers, K.W., Brown, S.C. et al. 2006. Research strategies for safety evaluation of nanomaterials. Part VI.
Characterization of nanoscale particles for toxicological evaluation.
Toxicol. Sci
., 90(2), 296-303.
Powers, K.V., Palazuelos, M. et al. 2007. Characterization of the size, shape, and state of dispersion of nanopar-
ticles for toxicological studies, Nanotoxicology 1(1), 42-51.
Reimer, L. 1993.
Transmission Electron Microscopy: Physics of Image Formation and Microanalysis
, 3rd edn..
New York: Springer-Verlag.
Rudt, S. and Muller, R.H. 1992. In vitro phagocytosis assay of nanoparticles and microparticles by chemilumi-
nescence .1. Effect of analytical parameters, particle-size and particle concentration.
J. Controll. Release
,
22(3): 263-271.
Ryman-Rasmussen, J.P., Cesta, M.F., Brody, A.R., Shipley-Phillips, J.K., Everitt, J.I., Tewksbury, E.W., Moss,
O.R. et al. 2009a. Inhaled carbon nanotubes reach the subpleural tissue in mice.
Nat. Nanotechnol
.,
4(11), 747-751.
Ryman-Rasmussen, J.P., Tewksbury, E.W., Moss, O.R., Cesta, M.F., Wong, B.A., and Bonner, J.C. 2009b.
Inhaled multiwalled carbon nanotubes potentiate airway ibrosis in murine allergic asthma.
Am. J. Respir.
Cell Mol. Biol
., 40(3), 349-358.
Sakurai, T.E. 2000.
Advances in Scanning Probe Microscopy (Advances in Materials Research, 2)
. New York:
Springer Verlag.
Searl, A., Buchanan, D., Cullen, R.T., Jones, A.D., Miller, B.G., and Soutar, C.A. 1999. Biopersistence and
durability of nine mineral ibre types in rat lungs over 12 months.
Ann. Occup. Hyg
., 43(3), 143-153.
Service, R.F. 1998. Chemistry: nanotubes: The next asbestos?
Science
, 281(5379), 941.
Shvedova, A.A., Kisin, E., Murray, A.R., Johnson, V.J., Gorelik, O., Arepalli, S., Hubbs, A.F. et al., 2008.
Inhalation vs. aspiration of single-walled carbon nanotubes in C57BL/6 mice: inlammation, ibrosis,
oxidative stress, and mutagenesis.
Am. J. Physiol. Lung Cell. Mol. Physiol
., 295(4), L552-L565.
Singh, R., Pantarotto, D., Lacerda, L., Pastorin, G., Klumpp, C., Prato, M., Bianco, A., and Kostarelos, K.
2006. Tissue biodistribution and blood clearance rates of intravenously administered carbon nanotube
radiotracers.
Proc. Natl Acad. Sci. USA
, 103(9), 3357-3362.
Stanton, M.F., Layard, M., Tegeris, A., Miller, E., May, M., Morgan, E., and Smith, A. 1981. Relation of par-
ticle dimension to carcinogenicity in amphibole asbestoses and other ibrous minerals.
J. Natl Cancer
Inst
., 67(5), 965-975.
Stuart, B.H. 2004.
Infrared Spectroscopy: Fundamentals and Applications
. New York: Wiley.
Tran, C.L., Jones, A.D., Cullen, R.T., and Donaldson, K. 1999. Mathematical modelling of the retention and
clearance of low-toxicity particles in the lung.
Inhal. Toxicol
., 11(12), 1059-1076.
Unfried, K., Schurkes, C. and Abel, J. 2002. Distinct spectrum of mutations induced by crocidolite asbestos:
Clue for 8-hydroxydeoxyguanosine-dependent mutagenesis in vivo.
Cancer Res
., 62(1), 99-104.
Vaisman, L., Wagner, H.D., and Marom, G. 2006. The role of surfactants in dispersion of carbon nanotubes.
Adv. Colloid Interface Sci
., 128, 37-46.
Van Gulijk, C., Marijnissen, J.C.M. et al. 2004. Measuring diesel soot with a scanning mobility particle sizer
and an electrical low-pressure impactor: Performance assessment with a model for fractal-like agglomer-
ates.
J. Aerosol Sci
. 35(5): 633-655.
Virta, R.L. and Geological Survey (U.S.). 2002.
Asbestos Geology, Mineralogy, Mining, and Uses
. Version 1.0
edn., Reston, VA: U.S. Department of the Interior, U.S. Geological Survey.
Warheit, D.B., Laurence, B.R., Reed, K.L., Roach, D.H., Reynolds, G.A., and Webb, T.R. 2004. Comparative
pulmonary toxicity assessment of single-wall carbon nanotubes in rats.
Toxicol. Sci
., 77(1), 117-125.
Watts, J.F. and Wolstenholme, J. 2003.
An Introduction to Surface Analysis by XPS and AES
, 2nd rev. edn.
New York: Wiley.
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