Interfacing engineered nanoparticles with biological systems: anticipating adverse nano-bio interactions.
about
Nanomedicine concepts in the general medical curriculum: initiating a discussionSafety of Nanoparticles in MedicineTracking of magnetite labeled nanoparticles in the rat brain using MRISecondary structure of corona proteins determines the cell surface receptors used by nanoparticles.Size-dependent accumulation of particles in lysosomes modulates dendritic cell function through impaired antigen degradation.The nano-plasma interface: Implications of the protein corona.Gold nanoprism-nanorod face off: comparing the heating efficiency, cellular internalization and thermoablation capacity.The autophagic response to polystyrene nanoparticles is mediated by transcription factor EB and depends on surface charge.Real-time, label-free monitoring of cell viability based on cell adhesion measurements with an atomic force microscopeNanoparticle biointerfacing by platelet membrane cloaking.Dynamic protein coronas revealed as a modulator of silver nanoparticle sulphidation in vitroBiodistribution and acute toxicity of a nanofluid containing manganese iron oxide nanoparticles produced by a mechanochemical process.Diverse Applications of Nanomedicine.Merging the best of both worlds: hybrid lipid-enveloped matrix nanocomposites in drug delivery.Interaction of colloidal nanoparticles with their local environment: the (ionic) nanoenvironment around nanoparticles is different from bulk and determines the physico-chemical properties of the nanoparticles.Dynamic biointerfaces: from recognition to function.Shape matters: synthesis and biomedical applications of high aspect ratio magnetic nanomaterials.Nanotoxicology: advances and pitfalls in research methodology.Protein Corona: Impact of Lymph Versus Blood in a Complex In Vitro Environment.Smart Polymers with Special Wettability.In vitro evaluation of anticancer and antibacterial activities of cobalt oxide nanoparticles.Investigating the role of shape on the biological impact of gold nanoparticles in vitro.Gold nanoparticles partition to and increase the activity of glucose-6-phosphatase in a synthetic phospholipid membrane system.Fabrication of corona-free nanoparticles with tunable hydrophobicity.Dissecting common and divergent molecular pathways elicited by CdSe/ZnS quantum dots in freshwater and marine sentinel invertebrates.Nanoparticle interactions with live cells: Quantitative fluorescence microscopy of nanoparticle size effects.Regulation of Macrophage Recognition through the Interplay of Nanoparticle Surface Functionality and Protein Corona.Nanomagnet-based removal of lead and digoxin from living rats.Multiparametric analysis of anti-proliferative and apoptotic effects of gold nanoprisms on mouse and human primary and transformed cells, biodistribution and toxicity in vivo.Monitoring characteristics and genotoxic effects of engineered nanoparticle-protein corona.Inhibition of Kupffer Cell Autophagy Abrogates Nanoparticle-Induced Liver Injury.Biomimicry 3D gastrointestinal spheroid platform for the assessment of toxicity and inflammatory effects of zinc oxide nanoparticles.Effects of major parameters of nanoparticles on their physical and chemical properties and recent application of nanodrug delivery system in targeted chemotherapy.The Effects of Physicochemical Properties of Nanomaterials on Their Cellular Uptake In Vitro and In Vivo.Directed self-assembly of inorganic nanoparticles at air/liquid interfaces.Evaluation of mesoporous silica nanoparticles for oral drug delivery - current status and perspective of MSNs drug carriers.Red Blood Cell Membrane as a Biomimetic Nanocoating for Prolonged Circulation Time and Reduced Accelerated Blood Clearance.Combination of microfluidic high-throughput production and parameter screening for efficient shaping of gold nanocubes using Dean-flow mixing.Efficacy of DOPE/DC-cholesterol liposomes and GCPQ micelles as AZD6244 nanocarriers in a 3D colorectal cancer in vitro model.Investigations of ion transport through nanoscale polymer membranes by fluorescence quenching of CdSe/CdS quantum dot/quantum rods.
P2860
Q26775137-E60A7BCB-D238-408E-84E7-A6D386AFC88BQ28083076-B3BC2292-DC09-4014-89A4-3DF2D35976D6Q28540929-6F894FE0-1DCB-4267-BCC9-B44C5D9297EAQ30361890-DAB189E9-3309-4E6C-A935-D18155E02E83Q34073756-43F3E406-D1A3-425E-A81A-5DC2FA09B025Q34122883-B56D90C9-2985-4411-922D-3D7C1EC76703Q36175654-4283CF80-95CC-41EC-A493-43B1A31F9ED6Q36310713-58B5F41A-136A-41A6-B815-8592336FE20EQ36318900-BFDA48F7-9C75-462E-A235-83269755635AQ36912680-D52820A7-25DB-48A1-862C-D387579F20DEQ37000085-C4052D87-6DA0-4D45-8416-0E6E31E5B3E4Q37724135-7B7511CA-9AC4-4C3A-BCDC-D210C7B72DA5Q37728142-5949652B-35E4-4895-8127-768A2F36014EQ38150118-A54833B3-A537-4A1C-A899-74B3642B9025Q38206679-994CF154-9A31-44BA-9881-9E262AB777E7Q38263665-F11B6729-3151-4780-A7D5-87B2F273C7C1Q38422536-891EEE9F-A988-4157-BBDD-DE1566B406FDQ38586843-1CBCDB96-6E5E-4E07-8308-344444ACF48AQ38674654-A2A51457-10C8-43C1-859A-17C83BA8EBE9Q38786419-4EF780CA-9F4C-4EF3-8F30-BA06177C957CQ38819769-661AA5FA-CBFD-4E8A-A004-272DB621F5D6Q38834906-ADC4B83F-7CA3-4C30-BBA0-09B2441A4D6CQ41443683-D12E33AC-8B5E-482D-9541-42A89AB9C3ECQ42660933-3E45A65B-7297-4711-B455-4EEA2D5C6FF1Q42775842-1ACB1A2B-5AC4-4627-837D-DF019ED6B5FCQ43075222-89F7AF47-0A32-419F-906C-7A067F80FA92Q44344769-3A4A5466-67A7-46BC-BCE2-42DF06611BC2Q44634698-C62729DF-330D-48C4-8017-CC4EF0B6A16BQ46273977-96BD976F-2989-4C19-ABA2-C37EC0F42217Q46280545-E0FE9204-3E0F-441D-B3D9-371CDD86932BQ46413029-5A44FC76-80EE-4737-B522-2D4FF661B16EQ46823458-302773BC-712A-456F-B294-4FACB46FC9D8Q47150956-73274268-10EE-44F7-8DF4-9E61C2DDF74DQ47642966-428862A5-EC7E-4AAF-BEFA-EDDF94E0DD2CQ48311253-7502F7ED-730C-4115-A7D1-351BB6B5D182Q49560705-BF1E82B1-3C0F-46A4-AD9F-698ECEFDF844Q50282486-10A66CFE-490E-4880-A2D8-E3E9E4B03D64Q50783264-B9479178-2DB7-4B8F-B868-22ED3028A6F1Q52888231-F3D2C05E-9AD3-4505-BA98-B57DFA7F3EB9Q53146858-61CC26C5-2195-4453-AF29-44D92E36913A
P2860
Interfacing engineered nanoparticles with biological systems: anticipating adverse nano-bio interactions.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Interfacing engineered nanopar ...... adverse nano-bio interactions.
@en
type
label
Interfacing engineered nanopar ...... adverse nano-bio interactions.
@en
prefLabel
Interfacing engineered nanopar ...... adverse nano-bio interactions.
@en
P2093
P2860
P50
P356
P1433
P1476
Interfacing engineered nanopar ...... adverse nano-bio interactions.
@en
P2093
Christian Pfeiffer
Gaëlle Charron
Wolfgang J Parak
Xing-Jie Liang
Yuliang Zhao
P2860
P304
P356
10.1002/SMLL.201201229
P577
2012-10-30T00:00:00Z