2010
Acute pulmonary response of mice to multi-wall carbon nanotubes, Inhalation Toxicology, 22(4): 340-347 (March 2010), Han SG, Andrews R, Gairola CG. Abstract.
Inflammogenic effect of well-characterized fullerenes in inhalation and intratracheal instillation studies, Particle and Fibre Toxicology, 2010, 7:4 (18pp),Morimoto Y, Hirohashi M, Ogami A, Oyabu T, Myojo T, Nishi KI, Kadoya C, Todoroki M, Yamamoto M, Murakami M, Shimada M, Wang WN, Yamamoto K, Fujita K, Endoh S, Uchida K, Shinohara N, Nakanishi J, Tanaka I. Abstract.
Mouse pulmonary dose- and time course-responses induced by exposure to multi-walled carbon nanotubes,Toxicology, 269(2-3): 136-147 (March 2010), Porter DW, Hubbs AF, Mercer RR, Wu N, Wolfarth MG. Sriram K, Leonard S, Battelli L, Schwegler-Berry D, Friend S, Andrew M, Chen BT, Tsuruoka S, Endo M, Castranova V. Abstract.
2009
Inhalation Toxicity of Multi-wall Carbon Nanotubes in Rats Exposed for 3 Months, Toxicological Sciences 2009 112(2): 468-481, "Ma-Hock L, Treumann S, Strauss V, Brill S, Luizi F, Mertler M, Wiench K, Gamer AO, van Ravenzwaay B, Landsiedel R. Abstract.
Pathway focused protein profiling indicates differential function for IL-1B, -18 and VEGF during initiation and resolution of lung inflammation evoked by carbon nanoparticle exposure in mice, Particle and Fibre Toxicology, 2009, 6: 31 (14pp), Ganguly K, Upadhyay S, Irmler M, Takenaka S, Pukelsheim K, Beckers J, Hamelmann E, Schulz H, Stoeger T. Abstract.
Inhaled carbon nanotubes reach the subpleural tissue in mice, Nature Nanotechnology, 4(11): 747-751 (November 2009),"Ryman-Rasmussen JP, Cesta MF, Brody AR, Shipley-Phillips JK, Everitt JI, Tewksbury EW, Moss OR, Wong BA, Dodd DE, Andersen ME, Bonner JC. Abstract.
Influence of acid functionalization on the cardiopulmonary toxicity of carbon nanotubes and carbon black particles in mice, Toxicology and Applied Pharmacology 239(3), 224-232 (September 2009), Tong H, McGee JK, Saxena RK, Kodavanti UP, Devlin RB, Gilmour MI. Abstract.
Mechanisms for how inhaled multiwalled carbon nanotubes suppress systemic immune function in mice, Nature Nanotechnology 4(7): 451 - 456 (2009), Mitchell LA, Lauer FT, Burchiel SW, McDonald JD. Abstract.
Cardiac autonomic regulation after lung exposure to carbon nanotubes, Human & Experimental Toxicology, 28(6-7): 369-375 (June 2009), Legramante JM, Valentini F, Magrini A, Palleschi G, Sacco S, Iavicoli I, Pallante M, Moscone D, Galante A, Bergamaschi E, Bergamaschi A, Pietroiusti A. Abstract.
Pro-inflammatory and potential allergic responses resulting from B cell activation in mice treated with multi-walled carbon nanotubes by intratracheal instillation, Toxicology, 259(3): 113-121 (May 2009), Park EJ, Cho WS, Jeong J, Yi J, Choi K, Park K. Abstract.
Surface area of particle administered versus mass in determining the pulmonary toxicity of ultrafine and fine carbon black: comparison to ultrafine titanium dioxide, Particle and Fibre Toxicology 2009, 6:15 (12 pp), Sager TM, Castranova V. Abstract.
Gene expression profiles in rat lung after inhalation exposure to C60 fullerene particles, Toxicology 258(1), 5 April 2009, 47-55, Fujita K, Morimoto Y, Ogami A, Myojyo T, Tanaka I, Shimada M, Wang WN, Endoh S, Uchida K, Nakazato T, Yamamoto K, Fukui H, Horie M, Yoshida Y, Iwahashi H, Nakanishi J. Abstract.
2008
Toxicological effects of multi-wall carbon nanotubes in rats, Journal of Nanoparticle Research 10(8): 1303-1307 December 2008, Liu A, Sun K, Yang J, Zhao D. Abstract.
Inhalation vs. aspiration of single-walled carbon nanotubes in C57BL/6 mice: inflammation, fibrosis, oxidative stress, and mutagenesis, Am J Physiol Lung Cell Mol Physiol 2008, 295, L552-565, Shvedova, A. A.; Kisin, E.; Murray, A. R.; Johnson, V. J.; Gorelik, O.; Arepalli, S.; Hubbs, A. F.; Mercer, R. R.; Keohavong, P.; Sussman, N.; Jin, J.; Yin, J.; Stone, S.; Chen, B. T.; Deye, G.; Maynard, A.; Castranova, V.; Baron, P. A.; Kagan, V. E. Abstract.
Increased accumulation of neutrophils and decreased fibrosis in the lung of NADPH oxidase-deficient C57BL/6 mice exposed to carbon nanotubes, Toxicology and Applied Pharmacology [Toxicol. Appl. Pharmacol.]. Vol. 2008, 231 (2), 235-240, Shvedova, A. A.; Kisin, E. R.; Murray, A. R.; Kommineni, C.; Castranova, V.; Fadeel, B.; Kagan, V. E. Abstract.
Structural defects play a major role in the acute lung toxicity of multiwall carbon nanotubes: toxicological aspects, Chemical Research in Toxicology 2008, 21 (9), 1698-1705, Muller, J.; Huaux, F.; Fonseca, A.; Nagy, J. B.; Moreau, N.; Delos, M.; Raymundo-Pinero, E.; Beguin, F.; Kirsch-Volders, M.; Fenoglio, I.; Fubini, B.; Lison, D. Abstract.
Sequential exposure to carbon nanotubes and bacteria enhances pulmonary inflammation and infectivity, American Journal of Respiratory Cell and Molecular Biology 2008, 38, 579-590, Shvedova, A. A.; Fabisiak, J. P.; Kisin, E. R.; Murray, A. R.; Roberts, J. R.; Tyurina, Y. Y.; Antonini, J. M.; Feng, W. H.; Kommineni, C.; Reynolds, J.; Barchowsky, A.; Castranova, V.; Kagan, V. E. Abstract.
Acute pulmonary effects of combined exposure to carbon nanotubes and ozone in mice, Inhalation Toxicology 2008, 20, 391-398, Han, S. G.; Andrews, R.; Gairola, C. G.; Bhalla, D. K. Abstract.
Deposition, retention, and translocation of ultrafine particles from the central airways and lung periphery, American Journal of Respiratory and Critical Care Medicine 2008, 177, 426-432, Moller, W.; Felten, K.; Sommerer, K.; Scheuch, G.; Meyer, G.; Meyer, P.; Haussinger, K.; Kreyling, W. G. Abstract.
Single-Walled Carbon Nanotubes Can Induce Pulmonary Injury in Mouse Model, Nano Lett. 2008, Nano Lett., ASAP Article 10.1021/nl0723634, Chou, C. C.; Hsiao, H. Y.; Hong, Q. S.; Chen, C. H.; Peng, Y. W.; Chen, H. W.; Yang, P. C. Abstract.
Effects of subchronic inhalation exposure to carbon black nanoparticles in the nasal airways of laboratory rats, International Journal of Nanotechnology 2008, 5, 30, Santhanam, P.; Wagner, J. G.; Elder, A.; Gelein, R.; Carter, J. M.; Driscoll, K. E.; Oberdorster, G.; Harkema, J. R. Abstract.
Inhalation toxicity and lung toxicokinetics of C-60 fullerene nanoparticles and microparticles, Toxicological Sciences 2008, 101, 122-131, Baker, G. L.; Gupta, A.; Clark, M. L.; Valenzuela, B. R.; Staska, L. M.; Harbo, S. J.; Pierce, J. T.; Dill, J. A. Abstract.
2007
Comparative Pulmonary Toxicity Assessments of C60 Water Suspensions in Rats: Few Differences in Fullerene Toxicity in Vivo in Contrast to in Vitro Profiles, Nano Letters 2007, 7, 2399, Sayes, C. M.; Marchione, A. A.; Reed, K. L.; Warheit, D. B. Abstract.
Comparative study of pathological lesions induced by multiwalled carbon nanotubes in lungs of mice by intratracheal instillation and inhalation, Environ. Toxicol. 2007, 22, 415, Li, J. G.; Li, W. X.; Xu, J. Y.; Cai, X. Q.; Liu, R. L.; Li, Y. J.; Zhao, Q. F.; Li, Q. N. Abstract.
Assessing the pulmonary toxicity of single-walled carbon nanohorns, Nanotoxicology 2007, 1, 157, Lynch, R. M.; Voy, B. H.; Glass, D. F.; Mahurin, S. M.; zhao, B.; Hu, H.; Saxton, A. M.; Donnell, R. L.; Cheng, M.-d. Abstract.
Cardiovascular Effects of Pulmonary Exposure to Single-Wall Carbon Nanotubes, Environ Health Perspect 115 (3): 377–382 (2007), Li, Z., Hulderman, T., Salmen, R., Chapman, R., Leonard, S.S, Young, S.H., Shvedova, A., Luster, M.I, and Simeonova, P.P. Abstract.
2006
Effects of Airway Exposure to Nanoparticles on Lung Inflammation Induced by Bacterial Endotoxin in Mice, Environmental Health Perspectives 114(9): 1325-1330 (September 2006), Inoue K, Takano H, Yanagisawa R, Hirano S, Sakurai M, Shimada A, Yoshikawa T. Abstract.
Preliminary results on the pathogenic effects of intratracheal exposure to one-dimensional nanocarbons, CARBON 44 (6): 1057-1063 MAY 2006, Grubek-Jaworska H, Nejman P, Czuminska K, Przybylowski T, Huczko A, Lange H, Bystrzejewski M, Baranowski P, Chazan R. Abstract.
What is currently known about the health risks related to carbon nanotube exposures?, CARBON 44 (6): 1064-1069 MAY 2006, Warheit DB. Abstract.
Inhalation of ultrafine particles alters blood leukocyte expression of adhesion molecules in humans, ENVIRONMENTAL HEALTH PERSPECTIVES 114 (1): 51-58 JAN 2006, Frampton MW, Stewart JC, Oberdorster G, Morrow PE, Chalupa D, Pietropaoli AP, Frasier LM, Speers DM, Cox C, Huang LS, Utell MJ. Abstract.
2005
Pulmonary toxicity of 1-D nanocarbon materials, FULLERENES NANOTUBES AND CARBON NANOSTRUCTURES 13 (2): 141-145 APR-JUN 2005, Huczko A, Lange H, Bystrzejewski M, Baranowski P, Grubek-Jaworska H, Nejman P, Przybylowski T, Czuminska K, Glapinski J, Walton DRM, Kroto HW. Abstract.
2004
Ultrafine particles exert prothrombotic but not inflammatory effects on the hepatic microcirculation in healthy mice in vivo, Circulation. 2004 Mar 16;109(10):1320-5. Epub 2004 Mar 8. 15007013 Khandoga A, Stampfl A, Takenaka S, Schulz H, Radykewicz R, Kreyling W, Krombach F. Abstract.
Pulmonary and systemic effects of short-term inhalation exposure to ultrafine carbon black particles, Toxicol Appl Pharmacol. 2004 Feb 15;195(1):35-44. 14962503 Gilmour PS, Ziesenis A, Morrison ER, Vickers MA, Drost EM, Ford I, Karg E, Mossa C, Schroeppel A, Ferron GA, Heyder J, Greaves M, MacNee W, Donaldson K. Abstract.
Pulmonary toxicity of single-wall carbon nanotubes in mice 7 and 90 days after intratracheal instillation, Toxicol Sci. 2004 Jan;77(1):126-34. Epub 2003 Sep 26. 14514958 Lam CW, James JT, McCluskey R, Hunter RL. Abstract.
Systemic effects of inhaled ultrafine particles in two compromised, aged rat strains, Inhal Toxicol. 2004 Jun;16(6-7):461-71. 15204762 Elder AC, Gelein R, Azadniv M, Frampton M, Finkelstein J, Oberdorster G. Abstract.
2003
Effect of inhaled ultrafine carbon particles on the allergic airway response in ragweed-sensitized dogs, Inhal Toxicol. 2003 Feb;15(2):151-65. 12528044 Barrett EG, Rudolph K, Bowen LE, Muggenburg BA, Bice DE. Abstract.
Ultrafine carbon black particles enhance respiratory syncytial virus-induced airway reactivity, pulmonary inflammation, and chemokine expression, Toxicol Sci. 2003 Apr;72(2):339-46. Epub 2003 Mar 7. 12655033 Lambert AL, Mangum JB, DeLorme MP, Everitt JI. Abstract.
Ultrafine carbon black particles inhibit human lung fibroblast-mediated collagen gel contraction, AMERICAN JOURNAL OF RESPIRATORY CELL AND MOLECULAR BIOLOGY 28 (1): 111-121 JAN 2003, Kim HJ, Liu XD, Kobayashi T, Kohyama T, Wen FQ, Romberger DJ, Conner H, Gilmour PS, Donaldson K, MacNee W, Rennard SI. Abstract.
Ultrafine particle deposition in humans during rest and exercise, Inhal Toxicol. 2003 May;15(6):539-52. 12692730, Daigle CC, Chalupa DC, Gibb FR, Morrow PE, Oberdorster G, Utell MJ, Frampton MW. Abstract.
2002
Extrapulmonary translocation of ultrafine carbon particles following whole-body inhalation exposure of rats, JOURNAL OF TOXICOLOGY AND ENVIRONMENTAL HEALTH-PART A 65 (20): 1531-1543 OCT 2002, Oberdorster G, Sharp Z, Atudorei V, Elder A, Gelein R, Lunts A, Kreyling W, Cox C. Abstract.
Passage of inhaled particles into the blood circulation in humans, Circulation. 2002 Jan 29;105(4):411-4. 11815420 Nemmar A, Hoet PH, Vanquickenborne B, Dinsdale D, Thomeer M, Hoylaerts MF, Vanbilloen H, Mortelmans L, Nemery B. Abstract.
2001
PHYSIOLOGICAL TESTING OF CARBON NANOTUBES: ARE THEY ASBESTOS-LIKE?, Fullerene Science and Technology 9 (2): 251-254 2001, Huczko A, Lange H, Calko E, Grubeck-Jowarska H, Droszez P. Abstract.
2000
Pulmonary inflammatory response to inhaled ultrafine particles is modified by age, ozone exposure, and bacterial toxin, Inhal Toxicol. 2000;12 Suppl 4:227-46. 12881894 Elder AC, Gelein R, Finkelstein JN, Cox C, Oberdorster G. Abstract.
1999
Short-term inflammatory responses following intratracheal instillation of fine and ultrafine carbon black in rats,Inhal Toxicol. 1999 Aug;11(8):709-31. 10477444 Li XY, Brown D, Smith S, MacNee W, Donaldson K. Abstract.
1992
Controlled exposures of volunteers to respirable carbon and sulfuric acid aerosols,J Air Waste Manage Assoc. 1992 Jun;42(6):770-6. 1637548 Anderson KR, Avol EL, Edwards SA, Shamoo DA, Peng RC, Linn WS, Hackney JD. Abstract.
1990
Pulmonary effects of ultrafine coal fly ash inhaled by guinea pigs, J Toxicol Environ Health. 1990;29(2):169-84. 2299692 Chen LC, Lam HF, Kim EJ, Guty J, Amdur MO. Abstract.