Toxicity screenings of nanomaterials: challenges due to interference with assay processes and components of classic in vitro tests.
about
Acute inflammatory responses of nanoparticles in an intra-tracheal instillation rat modelA comparison of immunotoxic effects of nanomedicinal products with regulatory immunotoxicity testing requirementsImmunosuppressive and anti-inflammatory properties of engineered nanomaterialsHow should the completeness and quality of curated nanomaterial data be evaluated?Nanotoxicity: emerging concerns regarding nanomaterial safety and occupational hard metal (WC-Co) nanoparticle exposureNanomaterials vs Ambient Ultrafine Particles: an Opportunity to Exchange Toxicology KnowledgeInflammasome activation in airway epithelial cells after multi-walled carbon nanotube exposure mediates a profibrotic response in lung fibroblastsNano-risk Science: application of toxicogenomics in an adverse outcome pathway framework for risk assessment of multi-walled carbon nanotubesEnvironmental impact of multi-wall carbon nanotubes in a novel model of exposure: systemic distribution, macrophage accumulation, and amyloid depositionComprehensive In Vitro Toxicity Testing of a Panel of Representative Oxide Nanomaterials: First Steps towards an Intelligent Testing StrategyAir-liquid interface exposure to aerosols of poorly soluble nanomaterials induces different biological activation levels compared to exposure to suspensionsHigh throughput toxicity screening and intracellular detection of nanomaterialsMechanisms Underlying Cytotoxicity Induced by Engineered Nanomaterials: A Review of In Vitro StudiesProactive Approach for Safe Use of Antimicrobial Coatings in Healthcare Settings: Opinion of the COST Action Network AMiCIExploring the potential role of tungsten carbide cobalt (WC-Co) nanoparticle internalization in observed toxicity toward lung epithelial cells in vitroDifferential stress reaction of human colon cells to oleic-acid-stabilized and unstabilized ultrasmall iron oxide nanoparticlesFactors affecting the in vitro micronucleus assay for evaluation of nanomaterials.Kinetics of silica nanoparticles in the human placenta.Can the comet assay be used reliably to detect nanoparticle-induced genotoxicity?A comprehensive framework for evaluating the environmental health and safety implications of engineered nanomaterials.From the Cover: An Investigation of the Genotoxicity and Interference of Gold Nanoparticles in Commonly Used In Vitro Mutagenicity and Genotoxicity Assays.In vitro genotoxicity testing of four reference metal nanomaterials, titanium dioxide, zinc oxide, cerium oxide and silver: towards reliable hazard assessment.Oxidant generation, DNA damage and cytotoxicity by a panel of engineered nanomaterials in three different human epithelial cell lines.Dual contribution of surface charge and protein-binding affinity to the cytotoxicity of polystyrene nanoparticles in nonphagocytic A549 cells and phagocytic THP-1 cells.Interaction of single and multi wall carbon nanotubes with the biological systems: tau protein and PC12 cells as targetsAssessment of the oxidative potential of nanoparticles by the cytochrome c assay: assay improvement and development of a high-throughput method to predict the toxicity of nanoparticles.Pan-European inter-laboratory studies on a panel of in vitro cytotoxicity and pro-inflammation assays for nanoparticles.Influence of Nanotoxicity on Human Health and Environment: The Alternative Strategies.Safety assessment of nanoparticles for drug delivery by means of classic in vitro assays and beyond.Is the toxic potential of nanosilver dependent on its size?Genotoxic and immunotoxic effects of cellulose nanocrystals in vitro.The toxicity, transport and uptake of nanoparticles in the in vitro BeWo b30 placental cell barrier model used within NanoTEST.Iron oxide nanoparticle toxicity testing using high-throughput analysis and high-content imaging.The role of high-throughput screening in ecotoxicology and engineered nanomaterials.Toxicity of ZnO and TiO2 to Escherichia coli cells.Long-term exposure of A549 cells to titanium dioxide nanoparticles induces DNA damage and sensitizes cells towards genotoxic agents.The use of the comet assay for the evaluation of the genotoxicity of nanomaterials.Determination of adsorption affinity of nanoparticles for interleukin-8 secreted from A549 cells by in vitro cell-free and cell-based assays.Titanium dioxide food additive (E171) induces ROS formation and genotoxicity: contribution of micro and nano-sized fractions.Cell cycle dependent cellular uptake of zinc oxide nanoparticles in human epidermal cells.
P2860
Q23909870-6C298B23-B36B-4385-B62D-A0FAE862942CQ26744352-3AF4E634-647C-4599-A9B0-EA7EE9D742D7Q27005267-006FEBE8-6A6E-4BDD-9FD1-D6B3C6DF52AFQ27908490-5D277E5F-75C2-4956-8F81-61DBA0A99A9EQ28067495-FCFAA9E6-B378-4A0D-9B06-99167BC1C92FQ28073054-052D8651-67D7-456C-A7C7-0AD2C0948240Q28388551-447DC3AF-4302-4663-BC86-C5FF1451771DQ28389674-1F12405E-1CF4-4BEB-88C3-8B0F441976D5Q28390669-B6E7EA59-CB25-4C7E-9DD1-4E7AF0B79F31Q28394673-00290EDA-5718-423D-9E9A-B11CD06AD090Q28395806-E1EED79A-7847-4BCA-ACE3-19EB16B89102Q29248511-94C4C5BA-5314-4E9D-892E-389028B43C2FQ29248759-AC6A666B-247C-4E49-8906-5C72DC63DA5BQ33616008-CB43B799-6F88-44AF-A9E4-15227806BD02Q33772821-A9F72DAE-351A-4C87-A4E7-C7ED8D051E19Q33968741-5972EAD5-74E1-48E3-9077-97A55A270B87Q36115060-DA4CD5A9-6837-4A00-B49A-5A674C2DD680Q36263478-3CF5E726-CFF0-4C31-B7D5-8609B7AF5584Q38285584-21C825BE-1B74-497D-B37D-2393819F1A44Q38665194-C61E0B8D-0242-45CB-AE1F-8DF3A17BB9D9Q38720222-646B9C8A-D1CF-4700-A51E-D441C653F622Q38731506-AD560578-A878-474C-8B61-991F25319FEAQ38731799-EFE01540-1F7D-4A33-B1EC-9B5617247A05Q38753668-CD7BF740-9A4E-455B-8BFA-1E05165C1E32Q38769047-78C5B061-9AB5-4426-88B9-190F02E177EDQ38779712-D9DC0AA9-C0B9-4498-929E-A7470FA79F8EQ38784146-D7B859D4-ACFE-414C-BDDA-3F5EAC1DB285Q38813548-AC713D41-6731-4CEF-A9D6-473D8A13E4D2Q38850280-BB18ED0B-7616-41CF-988A-B5EB6D8DCD84Q38932968-78A61615-706A-4F88-886F-5D9248AAF4BAQ38953162-4F6FFAD5-46DE-47C5-94E0-75DFF2D9B550Q39113505-E910F845-06AC-46FB-AFA5-A1B2A4B24E84Q39125198-61EDBC1A-FF12-4523-B8BC-987FEC382295Q39261310-BE4CBAB1-5704-42EB-A5E0-4CAD9E8E6BFAQ39300144-118ECB84-7C98-4C8A-91C2-36C20D86BCA0Q40088778-8AF68A09-50DE-4C1E-B2DF-E3CE69B05E3BQ41153747-A67473D8-B800-43DF-8174-2ACC01895DD5Q41691176-D2AD28BC-9041-43EE-A679-7B16125E566AQ46467747-FC5FB677-D822-423B-B766-1E4E698938C8Q46570686-F9363BAB-AB6D-4606-B257-25274B3E088E
P2860
Toxicity screenings of nanomaterials: challenges due to interference with assay processes and components of classic in vitro tests.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年学术文章
@wuu
2015年学术文章
@zh
2015年学术文章
@zh-cn
2015年学术文章
@zh-hans
2015年学术文章
@zh-my
2015年学术文章
@zh-sg
2015年學術文章
@yue
2015年學術文章
@zh-hant
name
Toxicity screenings of nanomat ...... nts of classic in vitro tests.
@en
Toxicity screenings of nanomat ...... nts of classic in vitro tests.
@nl
type
label
Toxicity screenings of nanomat ...... nts of classic in vitro tests.
@en
Toxicity screenings of nanomat ...... nts of classic in vitro tests.
@nl
prefLabel
Toxicity screenings of nanomat ...... nts of classic in vitro tests.
@en
Toxicity screenings of nanomat ...... nts of classic in vitro tests.
@nl
P2093
P2860
P1433
P1476
Toxicity screenings of nanomat ...... ents of classic in vitro tests
@en
P2093
Antonio Marcomini
Blanka Halamoda Kenzaoui
Dagmar Bilanicova
Francelyne Marano
Giulio Pojana
Laura Walker
Lise M Fjellsbø
Lucienne Juillerat-Jeanneret
Maria Dusinska
P2860
P356
10.3109/17435390.2013.829590
P478
P577
2015-05-01T00:00:00Z