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Items: 1 to 20 of 126

1.

Use of a high-throughput screening approach coupled with in vivo zebrafish embryo screening to develop hazard ranking for engineered nanomaterials.

George S, Xia T, Rallo R, Zhao Y, Ji Z, Lin S, Wang X, Zhang H, France B, Schoenfeld D, Damoiseaux R, Liu R, Lin S, Bradley KA, Cohen Y, Nel AE.

ACS Nano. 2011 Mar 22;5(3):1805-17. doi: 10.1021/nn102734s. Epub 2011 Feb 16.

2.

Nanomaterial toxicity testing in the 21st century: use of a predictive toxicological approach and high-throughput screening.

Nel A, Xia T, Meng H, Wang X, Lin S, Ji Z, Zhang H.

Acc Chem Res. 2013 Mar 19;46(3):607-21. doi: 10.1021/ar300022h. Epub 2012 Jun 7. Review.

3.

Multifaceted toxicity assessment of catalyst composites in transgenic zebrafish embryos.

Jang GH, Lee KY, Choi J, Kim SH, Lee KH.

Environ Pollut. 2016 Sep;216:755-63. doi: 10.1016/j.envpol.2016.06.045. Epub 2016 Jun 28.

PMID:
27364464
4.

A critical evaluation of the fish early-life stage toxicity test for engineered nanomaterials: experimental modifications and recommendations.

Shaw BJ, Liddle CC, Windeatt KM, Handy RD.

Arch Toxicol. 2016 Sep;90(9):2077-107. doi: 10.1007/s00204-016-1734-7. Epub 2016 Jun 18. Review.

PMID:
27318802
5.

Quantum dot nanotoxicity assessment using the zebrafish embryo.

King-Heiden TC, Wiecinski PN, Mangham AN, Metz KM, Nesbit D, Pedersen JA, Hamers RJ, Heideman W, Peterson RE.

Environ Sci Technol. 2009 Mar 1;43(5):1605-11.

6.

Decreased dissolution of ZnO by iron doping yields nanoparticles with reduced toxicity in the rodent lung and zebrafish embryos.

Xia T, Zhao Y, Sager T, George S, Pokhrel S, Li N, Schoenfeld D, Meng H, Lin S, Wang X, Wang M, Ji Z, Zink JI, Mädler L, Castranova V, Lin S, Nel AE.

ACS Nano. 2011 Feb 22;5(2):1223-35. doi: 10.1021/nn1028482. Epub 2011 Jan 20.

7.

High content screening in zebrafish speeds up hazard ranking of transition metal oxide nanoparticles.

Lin S, Zhao Y, Xia T, Meng H, Ji Z, Liu R, George S, Xiong S, Wang X, Zhang H, Pokhrel S, Mädler L, Damoiseaux R, Lin S, Nel AE.

ACS Nano. 2011 Sep 27;5(9):7284-95. doi: 10.1021/nn202116p. Epub 2011 Aug 25.

8.

Comparison of the toxicity of silver, gold and platinum nanoparticles in developing zebrafish embryos.

Asharani PV, Lianwu Y, Gong Z, Valiyaveettil S.

Nanotoxicology. 2011 Mar;5(1):43-54. doi: 10.3109/17435390.2010.489207. Epub 2010 Jun 14.

PMID:
21417687
9.

Multilaboratory evaluation of 15 bioassays for (eco)toxicity screening and hazard ranking of engineered nanomaterials: FP7 project NANOVALID.

Bondarenko OM, Heinlaan M, Sihtmäe M, Ivask A, Kurvet I, Joonas E, Jemec A, Mannerström M, Heinonen T, Rekulapelly R, Singh S, Zou J, Pyykkö I, Drobne D, Kahru A.

Nanotoxicology. 2016 Nov;10(9):1229-42. doi: 10.1080/17435390.2016.1196251. Epub 2016 Jun 28.

10.

Automated phenotype recognition for zebrafish embryo based in vivo high throughput toxicity screening of engineered nano-materials.

Liu R, Lin S, Rallo R, Zhao Y, Damoiseaux R, Xia T, Lin S, Nel A, Cohen Y.

PLoS One. 2012;7(4):e35014. doi: 10.1371/journal.pone.0035014. Epub 2012 Apr 10.

11.

Developmental toxicity assay using high content screening of zebrafish embryos.

Lantz-McPeak S, Guo X, Cuevas E, Dumas M, Newport GD, Ali SF, Paule MG, Kanungo J.

J Appl Toxicol. 2015 Mar;35(3):261-72. doi: 10.1002/jat.3029. Epub 2014 May 28.

12.

Effects of metal-bearing nanoparticles (Ag, Au, CdS, ZnO, SiO2) on developing zebrafish embryos.

Lacave JM, Retuerto A, Vicario-Parés U, Gilliland D, Oron M, Cajaraville MP, Orbea A.

Nanotechnology. 2016 Aug 12;27(32):325102. doi: 10.1088/0957-4484/27/32/325102. Epub 2016 Jul 1.

PMID:
27363512
13.

Use of a rapid cytotoxicity screening approach to engineer a safer zinc oxide nanoparticle through iron doping.

George S, Pokhrel S, Xia T, Gilbert B, Ji Z, Schowalter M, Rosenauer A, Damoiseaux R, Bradley KA, Mädler L, Nel AE.

ACS Nano. 2010 Jan 26;4(1):15-29. doi: 10.1021/nn901503q.

14.

Zebrafish high-throughput screening to study the impact of dissolvable metal oxide nanoparticles on the hatching enzyme, ZHE1.

Lin S, Zhao Y, Ji Z, Ear J, Chang CH, Zhang H, Low-Kam C, Yamada K, Meng H, Wang X, Liu R, Pokhrel S, Mädler L, Damoiseaux R, Xia T, Godwin HA, Lin S, Nel AE.

Small. 2013 May 27;9(9-10):1776-85. doi: 10.1002/smll.201202128. Epub 2012 Nov 23.

15.

High-content screening as a universal tool for fingerprinting of cytotoxicity of nanoparticles.

Jan E, Byrne SJ, Cuddihy M, Davies AM, Volkov Y, Gun'ko YK, Kotov NA.

ACS Nano. 2008 May;2(5):928-38. doi: 10.1021/nn7004393.

PMID:
19206490
16.

Small molecule screening in the zebrafish.

Murphey RD, Zon LI.

Methods. 2006 Jul;39(3):255-61.

PMID:
16877005
17.

Acute ZnO nanoparticles exposure induces developmental toxicity, oxidative stress and DNA damage in embryo-larval zebrafish.

Zhao X, Wang S, Wu Y, You H, Lv L.

Aquat Toxicol. 2013 Jul 15;136-137:49-59. doi: 10.1016/j.aquatox.2013.03.019. Epub 2013 Apr 10.

PMID:
23643724
18.

Inter-laboratory assessment of a harmonized zebrafish developmental toxicology assay - progress report on phase I.

Gustafson AL, Stedman DB, Ball J, Hillegass JM, Flood A, Zhang CX, Panzica-Kelly J, Cao J, Coburn A, Enright BP, Tornesi MB, Hetheridge M, Augustine-Rauch KA.

Reprod Toxicol. 2012 Apr;33(2):155-64. doi: 10.1016/j.reprotox.2011.12.004. Epub 2011 Dec 21.

PMID:
22210281
19.

Improvement of the evaluation method for teratogenicity using zebrafish embryos.

Yamashita A, Inada H, Chihara K, Yamada T, Deguchi J, Funabashi H.

J Toxicol Sci. 2014 Jun;39(3):453-64.

20.

No time to lose--high throughput screening to assess nanomaterial safety.

Damoiseaux R, George S, Li M, Pokhrel S, Ji Z, France B, Xia T, Suarez E, Rallo R, Mädler L, Cohen Y, Hoek EM, Nel A.

Nanoscale. 2011 Apr;3(4):1345-60. doi: 10.1039/c0nr00618a. Epub 2011 Feb 7. Review.

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