Biomedical Engineering Reference
In-Depth Information
Mitchell, L.A., Lauer, F.T., Burchiel, S.W., McDonald, J.D. (2009) Mechanisms for how
inhaled multiwalled carbon nanotubes suppress systemic immune function in mice.
Nat
Nanotechnol
4: 451-456.
Muller, J., Huaux, F., Moreau, N., Misson, P., Heilier, J.F., Delos, M., Arras, M., Fonseca,
A., Nagy, J.B., Lison, D. (2005) Respiratory toxicity of multi-wall carbon nanotubes.
Toxicol Appl Pharmacol
207: 221-231.
Murphy, F.A., Schinwald, A., Poland, C.A., Donaldson, K. (2012) The mechanism of pleural
inflammation by long carbon nanotubes: Interaction of longfibres with macrophages
stimulates them to amplify pro-inflammatory responses in mesothelial cells.
Part Fibre
Toxicol
9: 8.
Murray, A.R., Kisin, E.R., Tkach, A.V., Yanamala, N., Mercer, R., Young, S.H., Fadeel, B.,
Kagan, V.E., Shvedova, A.A. (2012) Factoring-inagglomeration of carbon nanotubes
and nanofibers for better prediction of their toxicity versus asbestos.
Part Fibre Toxicol
9: 10.
Nygaard, U.C., Hansen, J.S., Samuelsen, M., Alberg T., Marioara, C.D., Løvik, M. (2009)
Single-walled and multi-walled carbon nanotubes promote allergic immune responses
in mice.
Toxicol Sci
. 109: 113-123.
Palomäki, J., Välimäki, E., Sund, J., Vippola, M., Clausen, P.A., Jensen, K.A., Savolainen,
K., Matikainen, S., Alenius, H. (2011) Long, needle-like carbon nanotubes and asbes-
tos activate the NLRP3 inflammasome through a similar mechanism.
ACS Nano
5:
6861-6870.
Pauluhn, J. (2010) Subchronic 13-week inhalation exposure of rats to multiwalled carbon
nanotubes: toxic effects are determined by density of agglomerate structures, not fibril-
lar structures.
Toxicol Sci
. 113(1): 226-242.
Park, E.J., Cho, W.S., Jeong, J., Yi, J., Choi, K., Park, K. (2009) Pro-inflammatory and poten-
tial allergic responses resulting from B cell activation in mice treated with multi-walled
carbon nanotubes by intratracheal instillation.
Toxicology
259: 113-121.
Patlolla, A.K., Hussain, S.M., Schlager, J.J., Patlolla, S., Tchounwou, P.B. (2010)
Comparative study of the clastogenicity of functionalized and nonfunctionalized
multiwalled carbon nanotubes in bone marrow cells of Swiss-Webster mice.
Environ
Toxicol
. 25: 608-621.
Poland, C.A., Duffin, R., Kinloch, I., Maynard, A., Wallace, W.A.H., Seaton, A., Stone, V.,
Brown, S., MacNee, W., 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, D.W., Hubbs, A.F., Mercer, R.R., Wu, N., Wolfarth, M.G., Sriram, K., Leonard, S.,
Battelli, L., Schwegler-Berry, D., Friend, S., Andrew, M., Chen, B.T., Tsuruoka, S.,
Endo, M., Castranova, V. (2010) Mouse pulmonary dose- and time course-responses
induced by exposure to multi-walled carbon nanotubes. Toxicology 269: 136-147.
Prato, M., Kostarelos, K., Bianco, A. (2008) Functionalized carbon nanotubes in drug design
and discovery.
Acc Chem Res
41: 60-68.
Ryman-Rasmussen, J.P., Cesta, M.F., Brody, A.R., Shipley-Phillips, J.K., Everitt,
J., Tewksbury, E.W., Moss, O.R., Wong, B.A., Dodd, D.E., Andersen, M.E., Bonner,
J.C. (2009a) Inhaled multi-walled carbon nanotubes reach the subpleural tissue in mice.
Nat Nanotechnol
4: 747-751.
Ryman-Rasmussen, J.P., Tewksbury, E.W., Moss, O.R., Cesta, M.F., Wong, B.A., Bonner, J.C.
(2009b) Inhaled multiwalled carbon nanotubes potentiate airway fibrosis in a murine
model of allergic asthma.
Am J Resp Cell Mol Biol
40: 349-358.
Sargent, L.M., Hubbs, A.F., Young, S.H., Kashon, M.L., Dinu, C.Z., Salisbury, J.L., Benkovic,
S.A., Lowry, D.T., Murray, A.R., Kisin, E.R., Siegrist, K.J., Battelli, L., Mastovich, J.,
Sturgeon, J.L., Bunker, K.L., Shvedova, A.A., Reynolds, S.H. (2012) Single-walled car-
bon nanotube-induced mitotic disruption.
Mutat Res.
745: 28-37.
Search WWH ::
Custom Search