Interaction of nanoparticles with the pulmonary surfactant system.
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Computational multiscale toxicodynamic modeling of silver and carbon nanoparticle effects on mouse lung functionSilica coating influences the corona and biokinetics of cerium oxide nanoparticlesPulmonary surfactant coating of multi-walled carbon nanotubes (MWCNTs) influences their oxidative and pro-inflammatory potential in vitroPulmonary surfactant is indispensable in order to simulate the in vivo situationIn Vivo Toxicity Studies of Metal and Metal Oxide NanoparticlesCytotoxic and proinflammatory effects of PVP-coated silver nanoparticles after intratracheal instillation in ratsThe effect of titanium dioxide nanoparticles on pulmonary surfactant function and ultrastructure.Selective targeting of alveolar type II respiratory epithelial cells by anti-surfactant protein-C antibody-conjugated lipoplexesPulmonary surfactant augments cytotoxicity of silica nanoparticles: Studies on an in vitro air-blood barrier modelModeling In Vivo Interactions of Engineered Nanoparticles in the Pulmonary Alveolar Lining Fluid.Silver nanowire interactions with primary human alveolar type-II epithelial cell secretions: contrasting bioreactivity with human alveolar type-I and type-II epithelial cells.Airway irritation, inflammation, and toxicity in mice following inhalation of metal oxide nanoparticlesMechanisms of toxicity induced by SiO2 nanoparticles of in vitro human alveolar barrier: effects on cytokine production, oxidative stress induction, surfactant proteins A mRNA expression and nanoparticles uptake.Effect of sonication and serum proteins on copper release from copper nanoparticles and the toxicity towards lung epithelial cells.Allergen particle binding by human primary bronchial epithelial cells is modulated by surfactant protein DNanoparticle interaction with model lung surfactant monolayers.Effects of Coal Fly Ash Particulate Matter on the Antimicrobial Activity of Airway Surface Liquid.Adverse biophysical effects of hydroxyapatite nanoparticles on natural pulmonary surfactant.Serum enhanced cytokine responses of macrophages to silica and iron oxide particles and nanomaterials: a comparison of serum to lung lining fluid and albumin dispersions.The role of natural processes and surface energy of inhaled engineered nanoparticles on aggregation and corona formation.A Proposed In Vitro Method to Assess Effects of Inhaled Particles on Lung Surfactant Function.Analysis of pulmonary surfactant in rat lungs after inhalation of nanomaterials: Fullerenes, nickel oxide and multi-walled carbon nanotubes.Nanoparticles in the lung and their protein corona: the few proteins that count.Analysis of pulmonary surfactant in rat lungs after intratracheal instillation of short and long multi-walled carbon nanotubes.Development of a Control Banding Tool for Nanomaterials
P2860
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P2860
Interaction of nanoparticles with the pulmonary surfactant system.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on July 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Interaction of nanoparticles with the pulmonary surfactant system.
@en
Interaction of nanoparticles with the pulmonary surfactant system.
@nl
type
label
Interaction of nanoparticles with the pulmonary surfactant system.
@en
Interaction of nanoparticles with the pulmonary surfactant system.
@nl
prefLabel
Interaction of nanoparticles with the pulmonary surfactant system.
@en
Interaction of nanoparticles with the pulmonary surfactant system.
@nl
P2860
P1476
Interaction of nanoparticles with the pulmonary surfactant system
@en
P2093
Carsten Schleh
P2860
P304
P356
10.1080/08958370903005744
P478
21 Suppl 1
P577
2009-07-01T00:00:00Z