Effects of Iron Oxide Nanoparticles (γ-Fe 2 O 3 ) on Liver, Lung and Brain Proteomes following Sub-Acute Intranasal Exposure: A New Toxicological Assessment in Rat Model Using iTRAQ-Based Quantitative Proteomics
Askri, Dalel, Cunin, Valérie, Ouni, Souhir, Béal, David, Rachidi, Walid, Sakly, Mohsen, Amara, Salem, Lehmann, Sylvia G, Sève, Michel
Published in International journal of molecular sciences (19.10.2019)
Published in International journal of molecular sciences (19.10.2019)
Get full text
Journal Article
Nanoparticles in foods? A multiscale physiopathological investigation of iron oxide nanoparticle effects on rats after an acute oral exposure: Trace element biodistribution and cognitive capacities
Askri, Dalel, Ouni, Souhir, Galai, Said, Chovelon, Benoit, Arnaud, Josiane, Sturm, Nathalie, Lehmann, Sylvia G., Sakly, Mohsen, Amara, Salem, Sève, Michel
Published in Food and chemical toxicology (01.05.2019)
Published in Food and chemical toxicology (01.05.2019)
Get full text
Journal Article
Sub-acute intravenous exposure to Fe2O3 nanoparticles does not alter cognitive performances and catecholamine levels, but slightly disrupts plasma iron level and brain iron content in rats
Askri, Dalel, Ouni, Souhir, Galai, Said, Chovelon, Benoit, Arnaud, Josiane, Lehmann, Sylvia G., Sakly, Mohsen, Sève, Michel, Amara, Salem
Published in Journal of trace elements in medicine and biology (01.12.2018)
Published in Journal of trace elements in medicine and biology (01.12.2018)
Get full text
Journal Article
Intranasal instillation of iron oxide nanoparticles induces inflammation and perturbation of trace elements and neurotransmitters, but not behavioral impairment in rats
Askri, Dalel, Ouni, Souhir, Galai, Said, Arnaud, Josiane, Chovelon, Benoit, Lehmann, Sylvia G., Sturm, Nathalie, Sakly, Mohsen, Sève, Michel, Amara, Salem
Published in Environmental science and pollution research international (01.06.2018)
Published in Environmental science and pollution research international (01.06.2018)
Get full text
Journal Article
Sub-acute intravenous exposure to Fe 2 O 3 nanoparticles does not alter cognitive performances and catecholamine levels, but slightly disrupts plasma iron level and brain iron content in rats
Askri, Dalel, Ouni, Souhir, Galai, Said, Chovelon, Benoit, Arnaud, Josiane, Lehmann, Sylvia G, Sakly, Mohsen, Sève, Michel, Amara, Salem
Published in Journal of trace elements in medicine and biology (01.12.2018)
Get full text
Published in Journal of trace elements in medicine and biology (01.12.2018)
Journal Article