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1.
Impact of copper oxide nanomaterials on differentiated and undifferentiated Caco-2 intestinal epithelial cells; assessment of cytotoxicity, barrier integrity, cytokine production and nanomaterial penetration.
Part Fibre Toxicol
; 14(1): 31, 2017 08 23.
Artículo
en Inglés
| MEDLINE | ID: mdl-28835236
2.
Ongoing inflammation enhances the toxicity of engineered nanomaterials: Application of an in vitro co-culture model of the healthy and inflamed intestine.
Toxicol In Vitro
; 63: 104738, 2020 Mar.
Artículo
en Inglés
| MEDLINE | ID: mdl-31760064
3.
Improving Quality in Nanoparticle-Induced Cytotoxicity Testing by a Tiered Inter-Laboratory Comparison Study.
Nanomaterials (Basel)
; 10(8)2020 Jul 22.
Artículo
en Inglés
| MEDLINE | ID: mdl-32707981
4.
Development of an in vitro co-culture model to mimic the human intestine in healthy and diseased state.
Toxicol In Vitro
; 45(Pt 1): 31-43, 2017 Dec.
Artículo
en Inglés
| MEDLINE | ID: mdl-28807632
5.
Mechanism of neutrophil activation and toxicity elicited by engineered nanomaterials.
Toxicol In Vitro
; 29(5): 1172-84, 2015 Aug.
Artículo
en Inglés
| MEDLINE | ID: mdl-25962642
6.
Inflammation and gene expression in the rat lung after instillation of silica nanoparticles: effect of size, dispersion medium and particle surface charge.
Toxicol Lett
; 224(1): 147-56, 2014 Jan 03.
Artículo
en Inglés
| MEDLINE | ID: mdl-24466574
7.
The role of Kupffer cells in the hepatic response to silver nanoparticles.
Nanotoxicology
; 8 Suppl 1: 149-54, 2014 Aug.
Artículo
en Inglés
| MEDLINE | ID: mdl-24344730
8.
Effects of silver nanoparticles on the liver and hepatocytes in vitro.
Toxicol Sci
; 131(2): 537-47, 2013 Feb.
Artículo
en Inglés
| MEDLINE | ID: mdl-23086748
9.
Angiotensin II-induced genomic damage in renal cells can be prevented by angiotensin II type 1 receptor blockage or radical scavenging.
Am J Physiol Renal Physiol
; 292(5): F1427-34, 2007 May.
Artículo
en Inglés
| MEDLINE | ID: mdl-17229674
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