Do nanoparticles induce neurodegenerative diseases? Understanding the origin of reactive oxidative species and protein aggregation and mis-folding phenomena in the presence of nanoparticles
about
Cellular uptake and localization of inhaled gold nanoparticles in lungs of mice with chronic obstructive pulmonary disease(7)Be-recoil radiolabelling of industrially manufactured silica nanoparticlesModularity map of the network of human cell differentiationTransferrin coated nanoparticles: study of the bionano interface in human plasma.Impact of nanosilver on various DNA lesions and HPRT gene mutations - effects of charge and surface coatingSize dependent translocation and fetal accumulation of gold nanoparticles from maternal blood in the rat.Size and surface charge of gold nanoparticles determine absorption across intestinal barriers and accumulation in secondary target organs after oral administration.Functionalized porous silica&maghemite core-shell nanoparticles for applications in medicine: design, synthesis, and immunotoxicityDifferences in the biokinetics of inhaled nano- versus micrometer-sized particles.Influence of the physiochemical properties of superparamagnetic iron oxide nanoparticles on amyloid β protein fibrillation in solution.Air-blood barrier translocation of tracheally instilled gold nanoparticles inversely depends on particle sizeDefect characterization in graphene and carbon nanotubes using Raman spectroscopy.Radiolabelling of engineered nanoparticles for in vitro and in vivo tracing applications using cyclotron accelerators.Is the toxic potential of nanosilver dependent on its size?Time resolved study of cell death mechanisms induced by amine-modified polystyrene nanoparticles.Low dose of amino-modified nanoparticles induces cell cycle arrest.The biomolecular corona is retained during nanoparticle uptake and protects the cells from the damage induced by cationic nanoparticles until degraded in the lysosomes.Nanoparticle adhesion to the cell membrane and its effect on nanoparticle uptake efficiency.Effects of the presence or absence of a protein corona on silica nanoparticle uptake and impact on cells.Serum heat inactivation affects protein corona composition and nanoparticle uptake.The effect of core and lanthanide ion dopants in sodium fluoride-based nanocrystals on phagocytic activity of human blood leukocytes.Biodistribution of inhaled gold nanoparticles in mice and the influence of surfactant protein D.Low uptake of silica nanoparticles in Caco-2 intestinal epithelial barriers.Immunotoxicity, genotoxicity and epigenetic toxicity of nanomaterials: New strategies for toxicity testing?Surface coatings shape the protein corona of SPIONs with relevance to their application in vivo.Effect of intracerebroventricular injection of TiO2 nanoparticles on complex behaviour in the rat.Nanoparticle accumulation and transcytosis in brain endothelial cell layers.High-speed imaging of Rab family small GTPases reveals rare events in nanoparticle trafficking in living cells.A new methodology for studying nanoparticle interactions in biological systems: dispersing titania in biocompatible media using chemical stabilisers.Serum protein identification and quantification of the corona of 5, 15 and 80 nm gold nanoparticles.
P859
Q28383221-97CF0087-AD41-4A72-96B4-6B3BDB786850Q30429250-B105766A-3FA1-447B-A6C7-70FF1A170A29Q33778589-3DFCA9DE-9373-4165-BB39-5CC784CB281FQ34351046-6649E8F8-7E58-4942-8D83-04E592C16D2EQ34486567-89B793AD-63A0-4C95-AF1C-E9FC9D0F360DQ35653525-F7255B5D-4B4A-4DCA-9352-18ECEFA80798Q35703091-36D23369-63FE-4DF0-9C48-9003E862E447Q35997269-94CA41A2-E9FB-430F-9E31-67C323B7FDA8Q36566402-AFFB6B52-54E8-4AA7-B0FC-E2ECFF30A462Q36709082-FE6DFA83-4FE0-4DD2-A64A-CA3BD40D9B86Q37651373-056FF581-00FE-459C-B19A-A1D1D8804A4AQ37805884-BFE56BD7-FCA1-4189-883B-9E0BD7293027Q37863574-F2C47831-CEAC-40E1-917E-B6D91FCDC4E1Q38932968-63D541DA-2EE5-4EE0-8D36-EC640DEF087EQ39084027-604700DE-B0F5-4F16-84F1-ECC9F1969A84Q39110817-C8C7F962-C04F-40E4-ADCC-040CA762DBCAQ39154122-0E5B9B2F-BBE0-48EC-B3E2-4D992490CCE7Q39213615-18BB3AAF-5814-431C-9FCD-13D1024F600BQ39327353-61D4D9A9-73A6-41AA-AC08-1ACB433701B3Q39634461-76A91EDB-6371-43D3-B5B6-16CE451E6F13Q42321858-B8BA3243-477D-473A-A427-22887DBBA8D9Q47311027-1595C78D-35C4-43CD-B8E2-FF0597B94320Q48115716-8D6DA6E6-B520-46CB-B397-1DDB92C9E6D3Q48680419-E4CA999D-C332-48E3-B58C-988CEB9A50C9Q48764876-6729EAC5-9B56-4DE9-967C-95FEE6159292Q48854085-E340C68B-EE4B-4ADA-89D9-D71662CF15CBQ48968218-CD86D5BF-1FF8-436E-9AA8-43518C470D3BQ50664927-AC6EA456-AC0B-4CEB-AC4E-4A7220D392C2Q50672190-4EBB92D7-520F-4458-B546-2FFE9D6C0A9DQ50937635-F7E76E79-A907-4306-8781-4B7823D65AA2
P859
Do nanoparticles induce neurodegenerative diseases? Understanding the origin of reactive oxidative species and protein aggregation and mis-folding phenomena in the presence of nanoparticles
name
Do nanoparticles induce neurod ...... the presence of nanoparticles
@en
type
label
Do nanoparticles induce neurod ...... the presence of nanoparticles
@en
altLabel
NEURONANO
@en
prefLabel
Do nanoparticles induce neurod ...... the presence of nanoparticles
@en
P17
P1813
NEURONANO
@en
P2769
4,823,050.42
P3400
P580
2009-02-01T00:00:00Z
P582
2012-01-31T00:00:00Z