scholarly article | Q13442814 |
P2093 | author name string | Guy Schoehn | |
Thierry Rabilloud | |||
Christine Moriscot | |||
Benoit Gallet | |||
Bastien Dalzon | |||
Catherine Aude-Garcia | |||
Véronique Collin-Faure | |||
Anaëlle Torres | |||
Daphna Fenel | |||
Solveig Reymond | |||
François Saint-Antonin | |||
P2860 | cites work | Mechanisms of nanoparticle-induced oxidative stress and toxicity | Q23909817 |
Exposure to welding fumes and lower airway infection with Streptococcus pneumoniae | Q24169989 | ||
Transition from inflammation to proliferation: a critical step during wound healing | Q28068273 | ||
An integrated approach for the in vitro dosimetry of engineered nanomaterials | Q28386114 | ||
Silica binding and toxicity in alveolar macrophages | Q28388699 | ||
Experimental considerations on the cytotoxicity of nanoparticles | Q28392779 | ||
Nrf2 suppresses macrophage inflammatory response by blocking proinflammatory cytokine transcription | Q28395088 | ||
Toxicity of Nanoparticles and an Overview of Current Experimental Models | Q28397310 | ||
Size-dependent toxicity of metal oxide particles—A comparison between nano- and micrometer size | Q28651642 | ||
Nanoparticle size and surface properties determine the protein corona with possible implications for biological impacts | Q28651929 | ||
Nanotoxicity: An Interplay of Oxidative Stress, Inflammation and Cell Death | Q29248384 | ||
Sterile inflammation: sensing and reacting to damage | Q29620014 | ||
Protective and pathogenic functions of macrophage subsets | Q29620351 | ||
Size-dependent bioadhesion of micro- and nanoparticulate carriers to the inflamed colonic mucosa. | Q30693675 | ||
Medical nanoparticles for next generation drug delivery to the lungs. | Q51726084 | ||
Combined effect of silica dust exposure and cigarette smoking on total and cause-specific mortality in iron miners: a cohort study. | Q55241560 | ||
Iron Regulation: Macrophages in Control | Q60955833 | ||
Mechanisms of Ferroptosis and Relations With Regulated Cell Death: A Review | Q64100829 | ||
Phagocytosis of fluorescent latex microbeads by peritoneal macrophages in different strains of mice: a flow cytometric study | Q67810937 | ||
Decreased concentrations of tumor necrosis factor-alpha in supernatants of monocytes from homozygotes for hereditary hemochromatosis | Q68090198 | ||
The pathogenesis of silicosis. State of the art | Q70127257 | ||
Functional defects in phagocytic cells from patients with iron overload | Q71395835 | ||
Nrf2 controls iron homeostasis in haemochromatosis and thalassaemia via Bmp6 and hepcidin | Q91646535 | ||
The Transferrin Receptor CD71 Delineates Functionally Distinct Airway Macrophage Subsets during Idiopathic Pulmonary Fibrosis | Q91732317 | ||
Utility of macrophages in an antitumor strategy based on the vectorization of iron oxide nanoparticles | Q92870699 | ||
A Proteomic View of Cellular Responses to Anticancer Quinoline-Copper Complexes | Q93017778 | ||
Pseudomonas aeruginosa Exolysin promotes bacterial growth in lungs, alveolar damage and bacterial dissemination | Q33704962 | ||
Iron at the interface of immunity and infection | Q33909430 | ||
Mechanism of action of cytochalasin B on actin | Q34272923 | ||
Autophagy and oxidative stress in cardiovascular diseases | Q34506174 | ||
Optimizing iron delivery in the management of anemia: patient considerations and the role of ferric carboxymaltose | Q34700903 | ||
Airborne particulate metals in the New York City subway: a pilot study to assess the potential for health impacts | Q35163643 | ||
Joint effects of smoking and silicosis on diseases to the lungs | Q35221747 | ||
Comparative proteomic analysis of the molecular responses of mouse macrophages to titanium dioxide and copper oxide nanoparticles unravels some toxic mechanisms for copper oxide nanoparticles in macrophages. | Q35526682 | ||
Inflammation and wound healing: the role of the macrophage | Q36679987 | ||
Protein adsorption onto nanoparticles induces conformational changes: Particle size dependency, kinetics, and mechanisms | Q37105692 | ||
Molecular responses of mouse macrophages to copper and copper oxide nanoparticles inferred from proteomic analyses. | Q37289373 | ||
One low-dose exposure of gold nanoparticles induces long-term changes in human cells | Q37451065 | ||
Influence of particle size on regional lung deposition--what evidence is there? | Q37828245 | ||
Scavenger receptors in homeostasis and immunity | Q38127564 | ||
Tumor-associated macrophages as major players in the tumor microenvironment | Q38240110 | ||
Macrophage iron homeostasis and polarization in the context of cancer | Q38254678 | ||
Time-course assessment of the aggregation and metabolization of magnetic nanoparticles. | Q38768389 | ||
A combined proteomic and targeted analysis unravels new toxic mechanisms for zinc oxide nanoparticles in macrophages | Q38808495 | ||
Analysis of cellular responses of macrophages to zinc ions and zinc oxide nanoparticles: a combined targeted and proteomic approach. | Q38999611 | ||
Immune modulation of some autoimmune diseases: the critical role of macrophages and neutrophils in the innate and adaptive immunity. | Q39137044 | ||
Toxicity of silver nanoparticles in macrophages | Q39192818 | ||
Antibacterial activity, inflammatory response, coagulation and cytotoxicity effects of silver nanoparticles. | Q39515269 | ||
Penetration of lipid membranes by gold nanoparticles: insights into cellular uptake, cytotoxicity, and their relationship | Q39662599 | ||
Subway particles are more genotoxic than street particles and induce oxidative stress in cultured human lung cells | Q39705078 | ||
Factors controlling air quality in different European subway systems | Q40340967 | ||
Silica-induced apoptosis in mouse alveolar macrophages is initiated by lysosomal enzyme activity | Q40571355 | ||
Impact of anatase and rutile titanium dioxide nanoparticles on uptake carriers and efflux pumps in Caco-2 gut epithelial cells | Q41137704 | ||
Physico-chemical properties of the new generation IV iron preparations ferumoxytol, iron isomaltoside 1000 and ferric carboxymaltose | Q41173473 | ||
Inhibition of phagocytosis and plasma membrane mobility of the cultivated macrophage by cytochalasin B. Role of subplasmalemmal microfilaments | Q41182472 | ||
Toll-like receptor stimulation enhances phagocytosis and intracellular killing of nonencapsulated and encapsulated Streptococcus pneumoniae by murine microglia | Q41956904 | ||
Dietary exposure to silver nanoparticles in Sprague-Dawley rats: effects on oxidative stress and inflammation | Q44342747 | ||
Molecular and immunological toxic effects of nanoparticles. | Q46289479 | ||
A systematic evaluation of bathophenanthroline, ferrozine and ferene in an ICSH-based method for the measurement of serum iron | Q46599256 | ||
Iron speciation of airborne subway particles by the combined use of energy dispersive electron probe X-ray microanalysis and Raman microspectrometry | Q46741163 | ||
Exposure-dependent Ag+ release from silver nanoparticles and its complexation in AgS2 sites in primary murine macrophages. | Q46751080 | ||
Nanoparticle-mediated cellular response is size-dependent. | Q47223945 | ||
Differential proteomics highlights macrophage-specific responses to amorphous silica nanoparticles. | Q48187272 | ||
Barrier-tissue macrophages: functional adaptation to environmental challenges | Q49048144 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 2 | |
P577 | publication date | 2020-02-05 | |
P1433 | published in | Nanomaterials | Q27724944 |
P1476 | title | Influences of Nanoparticles Characteristics on the Cellular Responses: The Example of Iron Oxide and Macrophages | |
P478 | volume | 10 |
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