Crucial ignored parameters on nanotoxicology: the importance of toxicity assay modifications and "cell vision"
about
In Vitro/In Vivo Toxicity Evaluation and Quantification of Iron Oxide Nanoparticles.Safe clinical use of carbon nanotubes as innovative biomaterialsNanostructures: a platform for brain repair and augmentationCellular targets and mechanisms in the cytotoxic action of non-biodegradable engineered nanoparticlesApplication of dental nanomaterials: potential toxicity to the central nervous systemAlzheimer's disease: pathophysiology and applications of magnetic nanoparticles as MRI theranostic agents.Genotoxicity of metal oxide nanomaterials: review of recent data and discussion of possible mechanisms.Preparation, characterization and in vitro efficacy of magnetic nanoliposomes containing the artemisinin and transferrin.Influence of Iron Oxide Nanoparticles on Innate and Genetically Modified Secretion Profiles of Mesenchymal Stem CellsAssessing the efficacy of nano- and micro-sized magnetic particles as contrast agents for MRI cell trackingRelating the Surface Properties of Superparamagnetic Iron Oxide Nanoparticles (SPIONs) to Their Bactericidal Effect towards a Biofilm of Streptococcus mutansUptake and transport of superparamagnetic iron oxide nanoparticles through human brain capillary endothelial cellsIn-situ particles reorientation during magnetic hyperthermia application: Shape matters twice.Applications and potential toxicity of magnetic iron oxide nanoparticles.Protein fibrillation and nanoparticle interactions: opportunities and challenges.Nanomaterials for reducing amyloid cytotoxicity.Assessing nanoparticle toxicity in cell-based assays: influence of cell culture parameters and optimized models for bridging the in vitro-in vivo gap.Cell tracking using multimodal imaging.New views and insights into intracellular trafficking of drug-delivery systems by fluorescence fluctuation spectroscopy.Electron paramagnetic resonance: a powerful tool to support magnetic resonance imaging research.Merging worlds of nanomaterials and biological environment: factors governing protein corona formation on nanoparticles and its biological consequences.Nanotoxicology: advances and pitfalls in research methodology.In vitro cytotoxicity of superparamagnetic iron oxide nanoparticles on neuronal and glial cells. Evaluation of nanoparticle interference with viability tests.A value-added exopolysaccharide as a coating agent for MRI nanoprobes.Low-solubility particles and a Trojan-horse type mechanism of toxicity: the case of cobalt oxide on human lung cellsAdvancing Risk Analysis for Nanoscale Materials: Report from an International Workshop on the Role of Alternative Testing Strategies for Advancement.Development of a peptide-functionalized imaging nanoprobe for the targeting of (FXYD2)γa as a highly specific biomarker of pancreatic beta cells.Tracking stem cells with superparamagnetic iron oxide nanoparticles: perspectives and considerations.Magnetic Nanoparticles Cross the Blood-Brain Barrier: When Physics Rises to a Challenge.Cell "vision": complementary factor of protein corona in nanotoxicology.A methacrylate-based polymeric imidazole ligand yields quantum dots with low cytotoxicity and low nonspecific binding.Autonomous magnetic labelling of functional mesenchymal stem cells for improved traceability and spatial control in cell therapy applications.Effect of surface charge on the colloidal stability and in vitro uptake of carboxymethyl dextran-coated iron oxide nanoparticlesEffects of DMSA-coated Fe3O4 nanoparticles on the transcription of genes related to iron and osmosis homeostasis.Effect of PEG molecular weight on stability, T₂ contrast, cytotoxicity, and cellular uptake of superparamagnetic iron oxide nanoparticles (SPIONs)The elephant in the room: reproducibility in toxicology.An assessment of the impact of SiO2 nanoparticles of different sizes on the rest/wake behavior and the developmental profile of zebrafish larvae.Molecular interactions of different size AuNP-COOH nanoparticles with human fibrinogen.The Protein Corona around Nanoparticles Facilitates Stem Cell Labeling for Clinical MR Imaging.Magnetic hyperthermia therapy for the treatment of glioblastoma: a review of the therapy's history, efficacy, and application in humans.
P2860
Q26779017-530A4E37-83C6-49D4-9546-3A18314BED0DQ26851720-F5DBBC1F-0FCA-4F40-A553-105A4B17AE92Q27010023-936AAF98-36DC-4B27-84D2-63EFD475EC8AQ28390739-BFC3508A-76A7-4EBF-9D6E-046173377D97Q28394487-C35332E4-EFB4-4E6E-82E6-59DEB6860E7AQ30666219-99593FD8-552A-4783-8214-367F8F2EC865Q30884127-63B788F0-B56B-4827-AE5A-A286551DBCC6Q33739996-447FC4AE-8F01-4CF3-BD20-D4677458CE80Q33812258-EC8FF0CF-FFD6-46F2-A0AC-B959FB55E9F3Q35193933-97261F51-9B56-48C3-A16E-3FE78F85238AQ35999324-176DF328-AF5C-4071-9801-F559014E310BQ37235640-629C1766-B873-4C80-A3F3-20FAA7713017Q37475928-24860294-6613-4782-963B-1441C7C2B493Q38047272-3B1C6816-8EBB-4F73-80FB-CB7265F761B9Q38086743-933615AF-AEC0-4F5D-9B2C-F908DEA75EA3Q38110699-790CFF01-60F4-4628-8F4C-76A32B2420A8Q38123394-C22EE1CA-2B21-4FB7-A8F8-FD6573FE801EQ38174552-3F4C2105-EBED-4CFA-BBA0-55FB95F875DDQ38183853-AD07A07F-50B1-4FA1-AD6C-ED9EB31E2FBEQ38264293-E04348A9-0F8A-4B88-A400-8ACC62F36E3CQ38494930-0BD12EFB-4B2A-4713-8C19-F03E6D991F97Q38586843-12171E09-C7AA-47F9-BD1C-89EA786F7EBAQ38849195-B70E306D-704A-4B4F-A07B-54D631B77F00Q38851831-39E9896E-E33B-4978-9775-536818097598Q38869103-4668B7B4-B7BC-4E9F-B8ED-210F631ACB23Q38924137-B9297FD8-055E-440D-9554-223644962BDEQ39012287-B790D681-E53B-4690-8C8A-2EA98804A922Q39128194-9D9C47D7-A35D-4DC2-968E-8610F52B5EE6Q39202721-3C22BB52-5139-41B4-AF8E-712C09F1740FQ39306835-04908EB7-DB81-446F-A300-B9FA3473FFE8Q39923244-74D7558B-F09E-4E41-AAC5-804C0233A2C6Q41540394-130BEED6-B083-4F43-A20C-592FC6EFCBE9Q41889626-037CEE45-A2D8-49F6-A9C6-22FC9B66EC45Q42715190-BD4AD49A-9E50-4B9E-A6FD-51CE65B88EADQ42745084-629822D4-1737-4B86-B431-677307CB069FQ43014220-6D66FEFE-FD17-4114-847B-17ECD7F6BBD7Q44618748-6A6E2A54-EA52-4432-ADCF-EE52A3453407Q47221013-CB1186B3-2EF1-4DE6-91EC-5C9B39C76836Q47391647-7C5C4016-ACB5-4996-AAE2-7DA6DF777261Q47721799-156C2118-B20D-44EA-A2EE-21BC4BAAE3B3
P2860
Crucial ignored parameters on nanotoxicology: the importance of toxicity assay modifications and "cell vision"
description
2012 nî lūn-bûn
@nan
2012 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Crucial ignored parameters on ...... odifications and "cell vision"
@ast
Crucial ignored parameters on ...... odifications and "cell vision"
@en
Crucial ignored parameters on ...... odifications and "cell vision"
@nl
type
label
Crucial ignored parameters on ...... odifications and "cell vision"
@ast
Crucial ignored parameters on ...... odifications and "cell vision"
@en
Crucial ignored parameters on ...... odifications and "cell vision"
@nl
prefLabel
Crucial ignored parameters on ...... odifications and "cell vision"
@ast
Crucial ignored parameters on ...... odifications and "cell vision"
@en
Crucial ignored parameters on ...... odifications and "cell vision"
@nl
P2860
P50
P1433
P1476
Crucial ignored parameters on ...... odifications and "cell vision"
@en
P2093
Coralie Thirifays
Sophie Laurent
P2860
P304
P356
10.1371/JOURNAL.PONE.0029997
P407
P577
2012-01-10T00:00:00Z