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Items: 1 to 20 of 122

1.

Interlaboratory evaluation of in vitro cytotoxicity and inflammatory responses to engineered nanomaterials: the NIEHS Nano GO Consortium.

Xia T, Hamilton RF, Bonner JC, Crandall ED, Elder A, Fazlollahi F, Girtsman TA, Kim K, Mitra S, Ntim SA, Orr G, Tagmount M, Taylor AJ, Telesca D, Tolic A, Vulpe CD, Walker AJ, Wang X, Witzmann FA, Wu N, Xie Y, Zink JI, Nel A, Holian A.

Environ Health Perspect. 2013 Jun;121(6):683-90. doi: 10.1289/ehp.1306561. Epub 2013 May 6.

2.

Interlaboratory evaluation of rodent pulmonary responses to engineered nanomaterials: the NIEHS Nano GO Consortium.

Bonner JC, Silva RM, Taylor AJ, Brown JM, Hilderbrand SC, Castranova V, Porter D, Elder A, Oberdörster G, Harkema JR, Bramble LA, Kavanagh TJ, Botta D, Nel A, Pinkerton KE.

Environ Health Perspect. 2013 Jun;121(6):676-82. doi: 10.1289/ehp.1205693. Epub 2013 May 6.

3.

Synthesis, characterization, and bioactivity of carboxylic acid-functionalized titanium dioxide nanobelts.

Hamilton RF, Wu N, Xiang C, Li M, Yang F, Wolfarth M, Porter DW, Holian A.

Part Fibre Toxicol. 2014 Sep 2;11:43. doi: 10.1186/s12989-014-0043-7.

4.

Nano GO Consortium--a team science approach to assess engineered nanomaterials: reliable assays and methods.

Schug TT, Nadadur SS, Johnson AF.

Environ Health Perspect. 2013 Jun;121(6):A176-7. doi: 10.1289/ehp.1306866. No abstract available.

5.

Atomic layer deposition coating of carbon nanotubes with zinc oxide causes acute phase immune responses in human monocytes in vitro and in mice after pulmonary exposure.

Dandley EC, Taylor AJ, Duke KS, Ihrie MD, Shipkowski KA, Parsons GN, Bonner JC.

Part Fibre Toxicol. 2016 Jun 8;13(1):29. doi: 10.1186/s12989-016-0141-9.

6.

Evaluation of uptake, cytotoxicity and inflammatory effects in respiratory cells exposed to pristine and -OH and -COOH functionalized multi-wall carbon nanotubes.

Ursini CL, Maiello R, Ciervo A, Fresegna AM, Buresti G, Superti F, Marchetti M, Iavicoli S, Cavallo D.

J Appl Toxicol. 2016 Mar;36(3):394-403. doi: 10.1002/jat.3228. Epub 2015 Sep 15.

PMID:
26370214
7.

Assessing toxicity of fine and nanoparticles: comparing in vitro measurements to in vivo pulmonary toxicity profiles.

Sayes CM, Reed KL, Warheit DB.

Toxicol Sci. 2007 May;97(1):163-80. Epub 2007 Feb 14.

PMID:
17301066
8.

Engineered nanomaterials cause cytotoxicity and activation on mouse antigen presenting cells.

Palomäki J, Karisola P, Pylkkänen L, Savolainen K, Alenius H.

Toxicology. 2010 Jan 12;267(1-3):125-31. doi: 10.1016/j.tox.2009.10.034. Epub 2009 Nov 6.

PMID:
19897006
9.

Mechanism of neutrophil activation and toxicity elicited by engineered nanomaterials.

Johnston H, Brown DM, Kanase N, Euston M, Gaiser BK, Robb CT, Dyrynda E, Rossi AG, Brown ER, Stone V.

Toxicol In Vitro. 2015 Aug;29(5):1172-84. doi: 10.1016/j.tiv.2015.04.021. Epub 2015 May 8.

PMID:
25962642
10.

Titanium dioxide induces different levels of IL-1beta production dependent on its particle characteristics through caspase-1 activation mediated by reactive oxygen species and cathepsin B.

Morishige T, Yoshioka Y, Tanabe A, Yao X, Tsunoda S, Tsutsumi Y, Mukai Y, Okada N, Nakagawa S.

Biochem Biophys Res Commun. 2010 Feb 5;392(2):160-5. doi: 10.1016/j.bbrc.2009.12.178. Epub 2010 Jan 7.

PMID:
20059972
11.

The applicability of conventional cytotoxicity assays to predict safety/toxicity of mesoporous silica nanoparticles, silver and gold nanoparticles and multi-walled carbon nanotubes.

Mannerström M, Zou J, Toimela T, Pyykkö I, Heinonen T.

Toxicol In Vitro. 2016 Dec;37:113-120. doi: 10.1016/j.tiv.2016.09.012. Epub 2016 Sep 13.

PMID:
27633900
12.

Combined Toxicity of Nano-ZnO and Nano-TiO2: From Single- to Multinanomaterial Systems.

Tong T, Wilke CM, Wu J, Binh CT, Kelly JJ, Gaillard JF, Gray KA.

Environ Sci Technol. 2015 Jul 7;49(13):8113-23. doi: 10.1021/acs.est.5b02148. Epub 2015 Jun 23.

PMID:
26070110
13.

Short-term exposure to engineered nanomaterials affects cellular epigenome.

Lu X, Miousse IR, Pirela SV, Melnyk S, Koturbash I, Demokritou P.

Nanotoxicology. 2016;10(2):140-50. doi: 10.3109/17435390.2015.1025115. Epub 2015 May 4.

14.

Copper oxide nanoparticles are highly toxic: a comparison between metal oxide nanoparticles and carbon nanotubes.

Karlsson HL, Cronholm P, Gustafsson J, Möller L.

Chem Res Toxicol. 2008 Sep;21(9):1726-32. doi: 10.1021/tx800064j. Epub 2008 Aug 19.

PMID:
18710264
15.

Informing selection of nanomaterial concentrations for ToxCast in vitro testing based on occupational exposure potential.

Gangwal S, Brown JS, Wang A, Houck KA, Dix DJ, Kavlock RJ, Hubal EA.

Environ Health Perspect. 2011 Nov;119(11):1539-46. doi: 10.1289/ehp.1103750. Epub 2011 Jul 25.

16.

Nanoscale and fine zinc oxide particles: can in vitro assays accurately forecast lung hazards following inhalation exposures?

Warheit DB, Sayes CM, Reed KL.

Environ Sci Technol. 2009 Oct 15;43(20):7939-45. doi: 10.1021/es901453p.

PMID:
19921917
17.

Cell-based cytotoxicity assays for engineered nanomaterials safety screening: exposure of adipose derived stromal cells to titanium dioxide nanoparticles.

Xu Y, Hadjiargyrou M, Rafailovich M, Mironava T.

J Nanobiotechnology. 2017 Jul 11;15(1):50. doi: 10.1186/s12951-017-0285-2.

18.

Environmental and health effects of nanomaterials in nanotextiles and façade coatings.

Som C, Wick P, Krug H, Nowack B.

Environ Int. 2011 Aug;37(6):1131-42. doi: 10.1016/j.envint.2011.02.013. Epub 2011 Mar 11. Review.

PMID:
21397331
19.

Differences in cytotoxic, genotoxic, and inflammatory response of bronchial and alveolar human lung epithelial cells to pristine and COOH-functionalized multiwalled carbon nanotubes.

Ursini CL, Cavallo D, Fresegna AM, Ciervo A, Maiello R, Buresti G, Casciardi S, Bellucci S, Iavicoli S.

Biomed Res Int. 2014;2014:359506. doi: 10.1155/2014/359506. Epub 2014 Jul 24.

20.

ZnO nanoparticles and organic chemical UV-filters are equally well tolerated by human immune cells.

O'Keefe SJ, Feltis BN, Piva TJ, Turney TW, Wright PF.

Nanotoxicology. 2016 Nov;10(9):1287-96. doi: 10.1080/17435390.2016.1206148. Epub 2016 Jul 19.

PMID:
27345703

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