Surface coating affects uptake of silver nanoparticles in neural stem cells.

[1]  S. Gajović,et al.  Impact of surface functionalization on the uptake mechanism and toxicity effects of silver nanoparticles in HepG2 cells. , 2017, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[2]  M. Šlouf,et al.  Physico-chemical characteristics, biocompatibility, and MRI applicability of novel monodisperse PEG-modified magnetic Fe3O4&SiO2 core–shell nanoparticles , 2017 .

[3]  M. Claudia,et al.  Comparison of fluorescence-based methods to determine nanoparticle uptake by phagocytes and non-phagocytic cells in vitro , 2017, Toxicology.

[4]  W. Goessler,et al.  Comparison of in vitro toxicity of silver ions and silver nanoparticles on human hepatoma cells , 2016, Environmental toxicology.

[5]  D. Horák,et al.  Oxidative stress response in neural stem cells exposed to different superparamagnetic iron oxide nanoparticles , 2016, International journal of nanomedicine.

[6]  Srećko Gajović,et al.  Surface coating affects behavior of metallic nanoparticles in a biological environment , 2016, Beilstein journal of nanotechnology.

[7]  Ivana Vinković Vrček,et al.  Does surface coating of metallic nanoparticles modulate their interference with in vitro assays , 2015 .

[8]  W. Goessler,et al.  Cellular uptake and toxicity effects of silver nanoparticles in mammalian kidney cells , 2015, Journal of applied toxicology : JAT.

[9]  Fang Liu,et al.  Effects of silver nanoparticles on human and rat embryonic neural stem cells , 2015, Front. Neurosci..

[10]  K. Willett,et al.  Gill Histopathologies Following Exposure to Nanosilver or Silver Nitrate , 2015, Journal of toxicology and environmental health. Part A.

[11]  Wolfgang Tremel,et al.  Comparative evaluation of the impact on endothelial cells induced by different nanoparticle structures and functionalization , 2015, Beilstein journal of nanotechnology.

[12]  I. Hsiao,et al.  Size and Cell Type Dependent Uptake of Silica Nanoparticles , 2014 .

[13]  Driton Vllasaliu,et al.  Mechanisms of nanoparticle internalization and transport across an intestinal epithelial cell model: effect of size and surface charge. , 2014, Molecular pharmaceutics.

[14]  Benjamin Michen,et al.  Different endocytotic uptake mechanisms for nanoparticles in epithelial cells and macrophages , 2014, Beilstein journal of nanotechnology.

[15]  Helinor J Johnston,et al.  Toxicological effect of engineered nanomaterials on the liver , 2014, British journal of pharmacology.

[16]  F. Stellacci,et al.  A general mechanism for intracellular toxicity of metal-containing nanoparticles† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c4nr01234h Click here for additional data file. , 2014, Nanoscale.

[17]  D. Vanhecke,et al.  Quantification of gold nanoparticle cell uptake under controlled biological conditions and adequate resolution. , 2014, Nanomedicine.

[18]  Jorge L Gardea-Torresdey,et al.  Organic-coated silver nanoparticles in biological and environmental conditions: fate, stability and toxicity. , 2014, Advances in colloid and interface science.

[19]  M. Mortimer,et al.  Toxicity of Ag, CuO and ZnO nanoparticles to selected environmentally relevant test organisms and mammalian cells in vitro: a critical review , 2013, Archives of Toxicology.

[20]  E. Söderstjerna,et al.  Gold- and Silver Nanoparticles Affect the Growth Characteristics of Human Embryonic Neural Precursor Cells , 2013, PloS one.

[21]  S. Mornet,et al.  Deciphering the mechanisms of cellular uptake of engineered nanoparticles by accurate evaluation of internalization using imaging flow cytometry , 2013, Particle and Fibre Toxicology.

[22]  M. Kruszewski,et al.  Time‐dependent biodistribution and excretion of silver nanoparticles in male Wistar rats , 2012, Journal of applied toxicology : JAT.

[23]  Linxi Wu,et al.  Scavenger receptor mediated endocytosis of silver nanoparticles into J774A.1 macrophages is heterogeneous. , 2012, ACS nano.

[24]  Y. Ibuki,et al.  Flow cytometric evaluation of nanoparticles using side-scattered light and reactive oxygen species-mediated fluorescence-correlation with genotoxicity. , 2012, Environmental science & technology.

[25]  Xuan Li,et al.  Aggregation kinetics and dissolution of coated silver nanoparticles. , 2012, Langmuir : the ACS journal of surfaces and colloids.

[26]  John T Elliott,et al.  Stable nanoparticle aggregates/agglomerates of different sizes and the effect of their size on hemolytic cytotoxicity , 2011, Nanotoxicology.

[27]  K. Dawson,et al.  Effects of Transport Inhibitors on the Cellular Uptake of Carboxylated Polystyrene Nanoparticles in Different Cell Lines , 2011, PloS one.

[28]  Astrid Gräslund,et al.  Mechanisms of Cellular Uptake of Cell-Penetrating Peptides , 2011, Journal of biophysics.

[29]  Kirsten Sandvig,et al.  Endocytosis and intracellular transport of nanoparticles: Present knowledge and need for future studies , 2011 .

[30]  Marianne Geiser,et al.  Update on macrophage clearance of inhaled micro- and nanoparticles. , 2010, Journal of aerosol medicine and pulmonary drug delivery.

[31]  Anant Kumar Singh,et al.  Effect of Surface Coating on the Toxicity of Silver Nanomaterials on Human Skin Keratinocytes. , 2010, Chemical physics letters.

[32]  Francesco Stellacci,et al.  Effect of surface properties on nanoparticle-cell interactions. , 2010, Small.

[33]  Jana Soukupova,et al.  Effect of Surfactants and Polymers on Stability and Antibacterial Activity of Silver Nanoparticles (NPs) , 2008 .

[34]  J. Jung,et al.  Twenty-Eight-Day Inhalation Toxicity Study of Silver Nanoparticles in Sprague-Dawley Rats , 2007, Inhalation toxicology.

[35]  W. Kreyling,et al.  Ultrafine particle-lung interactions: does size matter? , 2006, Journal of aerosol medicine : the official journal of the International Society for Aerosols in Medicine.

[36]  Ying Sun,et al.  Intracellular trafficking and cellular uptake mechanism of mPEG-PLGA-PLL and mPEG-PLGA-PLL-Gal nanoparticles for targeted delivery to hepatomas. , 2014, Biomaterials.

[37]  R. Zucker,et al.  Detection of TiO2 nanoparticles in cells by flow cytometry. , 2012, Methods in molecular biology.

[38]  R. Doty,et al.  Intranasal Administration of Neurotoxicants in Animals: Support for the Olfactory Vector Hypothesis of Parkinson’s Disease , 2011, Neurotoxicity Research.