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  • (-) Organizational Unit = 403 Particles-Biology Interactions
  • (-) Publication Year = 2006 - 2018
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An advanced human <i>in vitro</i> co-culture model for translocation studies across the placental barrier
Aengenheister, L., Keevend, K., Muoth, C., Schönenberger, R., Diener, L., Wick, P., & Buerki-Thurnherr, T. (2018). An advanced human in vitro co-culture model for translocation studies across the placental barrier. Scientific Reports, 8(1), 5388 (12 pp.). https://doi.org/10.1038/s41598-018-23410-6
Gold nanoparticle distribution in advanced in vitro and ex vivo human placental barrier models
Aengenheister, L., Dietrich, D., Sadeghpour, A., Manser, P., Diener, L., Wichser, A., … Buerki-Thurnherr, T. (2018). Gold nanoparticle distribution in advanced in vitro and ex vivo human placental barrier models. Journal of Nanobiotechnology, 16(1), 79 (16 pp.). https://doi.org/10.1186/s12951-018-0406-6
Risks and opportunities of nanomaterial exposure during pregnancy: from placental uptake and translocation to fetal consequences
Aengenheister, L. (2018). Risks and opportunities of nanomaterial exposure during pregnancy: from placental uptake and translocation to fetal consequences (Doctoral dissertation). Retrieved from http://hdl.handle.net/20.500.11850/297999
Biological response of an in vitro human 3D lung cell model exposed to brake wear debris varies based on brake pad formulation
Barosova, H., Chortarea, S., Peikertova, P., Clift, M. J. D., Petri-Fink, A., Kukutschova, J., & Rothen-Rutishauser, B. (2018). Biological response of an in vitro human 3D lung cell model exposed to brake wear debris varies based on brake pad formulation. Archives of Toxicology, 92(7), 2339-2351. https://doi.org/10.1007/s00204-018-2218-8
Electrodeposition of amorphous Fe-Cr-Ni stainless steel alloy with high corrosion resistance, low cytotoxicity and soft magnetic properties
Bertero, E., Hasegawa, M., Staubli, S., Pellicer, E., Herrmann, I. K., Sort, J., … Philippe, L. (2018). Electrodeposition of amorphous Fe-Cr-Ni stainless steel alloy with high corrosion resistance, low cytotoxicity and soft magnetic properties. Surface and Coatings Technology, 349, 745-751. https://doi.org/10.1016/j.surfcoat.2018.06.003
Acute effects of multi-walled carbon nanotubes on primary bronchial epithelial cells from COPD patients
Beyeler, S., Chortarea, S., Rothen-Rutishauser, B., Petri-Fink, A., Wick, P., Tschanz, S. A., … Blank, F. (2018). Acute effects of multi-walled carbon nanotubes on primary bronchial epithelial cells from COPD patients. Nanotoxicology, 12(7), 699-711. https://doi.org/10.1080/17435390.2018.1472310
Interference of engineered nanomaterials in flow cytometry: a case study
Bohmer, N., Rippl, A., May, S., Walter, A., Heo, M. B., Kwak, M., … Hirsch, C. (2018). Interference of engineered nanomaterials in flow cytometry: a case study. Colloids and Surfaces B: Biointerfaces, 172, 635-645. https://doi.org/10.1016/j.colsurfb.2018.09.021
Developmental toxicity of nanomaterials. Need for a better understanding of indirect effects
Buerki-Thurnherr, T., Schaepper, K., Aengenheister, L., & Wick, P. (2018). Developmental toxicity of nanomaterials. Need for a better understanding of indirect effects. Chemical Research in Toxicology, 31(8), 641-642. https://doi.org/10.1021/acs.chemrestox.8b00177
Distribution of polymer-coated gold nanoparticles in a 3D lung model and indication of apoptosis after repeated exposure
Chortarea, S., Fytianos, K., Rodriguez-Lorenzo, L., Petri-Fink, A., & Rothen-Rutishauser, B. (2018). Distribution of polymer-coated gold nanoparticles in a 3D lung model and indication of apoptosis after repeated exposure. Nanomedicine, 13(10), 1169-1185. https://doi.org/10.2217/nnm-2017-0358
Profibrotic activity of multiwalled carbon nanotubes upon prolonged exposures in different human lung cell types
Chortarea, S., Zerimariam, F., Barosova, H., Septiadi, D., Clift, M. J. D., Petri-Fink, A., & Rothen-Rutishauser, B. (2018). Profibrotic activity of multiwalled carbon nanotubes upon prolonged exposures in different human lung cell types. Applied in vitro toxicology, 5(1), 47-61. https://doi.org/10.1089/aivt.2017.0033
Single exposure to aerosolized graphene oxide and graphene nanoplatelets did not initiate an acute biological response in a 3D human lung model
Drasler, B., Kucki, M., Delhaes, F., Buerki-Thurnherr, T., Vanhecke, D., Korejwo, D., … Wick, P. (2018). Single exposure to aerosolized graphene oxide and graphene nanoplatelets did not initiate an acute biological response in a 3D human lung model. Carbon, 137, 125-135. https://doi.org/10.1016/j.carbon.2018.05.012
Safety assessment of graphene-based materials: focus on human health and the environment
Fadeel, B., Bussy, C., Merino, S., Vázquez, E., Flahaut, E., Mouchet, F., … Bianco, A. (2018). Safety assessment of graphene-based materials: focus on human health and the environment. ACS Nano, 12(11), 10582-10620. https://doi.org/10.1021/acsnano.8b04758
Catechin loaded PLGA submicron-sized fibers reduce levels of reactive oxygen species induced by MWCNT <i>in vitro</i>
Ghitescu, R. E., Popa, A. M., Schipanski, A., Hirsch, C., Yazgan, G., Popa, V. I., … Fortunato, G. (2018). Catechin loaded PLGA submicron-sized fibers reduce levels of reactive oxygen species induced by MWCNT in vitro. European Journal of Pharmaceutics and Biopharmaceutics, 122, 78-86. https://doi.org/10.1016/j.ejpb.2017.10.009
Engineered nanomaterials and human health: Part 1. Preparation, functionalization and characterization (IUPAC Technical Report)
Gubala, V., Johnston, L. J., Liu, Z., Krug, H., Moore, C. J., Ober, C. K., … Vert, M. (2018). Engineered nanomaterials and human health: Part 1. Preparation, functionalization and characterization (IUPAC Technical Report). Pure and Applied Chemistry, 90(8), 1283-1324. https://doi.org/10.1515/pac-2017-0101
Engineered nanomaterials and human health: Part 2. Applications and nanotoxicology (IUPAC Technical Report)
Gubala, V., Johnston, L. J., Krug, H., Moore, C. J., Ober, C. K., Schwenk, M., & Vert, M. (2018). Engineered nanomaterials and human health: Part 2. Applications and nanotoxicology (IUPAC Technical Report). Pure and Applied Chemistry, 90(8), 1325-1356. https://doi.org/10.1515/pac-2017-0102
Facile meltPEGylation of flame-made luminescent Tb<sup><small>3+</small></sup>-doped yttrium oxide particles: hemocompatibility, cellular uptake and comparison to silica
Keevend, K., Panzarasa, G., Starsich, F. H. L., Zeltner, M., Spyrogianni, A., Tsolaki, E., … Herrmann, I. K. (2018). Facile meltPEGylation of flame-made luminescent Tb3+-doped yttrium oxide particles: hemocompatibility, cellular uptake and comparison to silica. Chemical Communications, 54(23), 2914-2917. https://doi.org/10.1039/c7cc09402g
Impact of graphene oxide on human placental trophoblast viability, functionality and barrier integrity
Kucki, M., Aengenheister, L., Diener, L., Rippl, A. V., Vranic, S., Newman, L., … Buerki-Thurnherr, T. (2018). Impact of graphene oxide on human placental trophoblast viability, functionality and barrier integrity. 2D materials, 5(3), 035014 (15 pp.). https://doi.org/10.1088/2053-1583/aab9e2
Air–liquid interface <i>in vitro</i> models for respiratory toxicology research: consensus workshop and recommendations
Lacroix, G., Koch, W., Ritter, D., Gutleb, A. C., Larsen, S. T., Loret, T., … Kooter, I. (2018). Air–liquid interface in vitro models for respiratory toxicology research: consensus workshop and recommendations. Applied in vitro toxicology, 4(2), 91-106. https://doi.org/10.1089/aivt.2017.0034
Bioactive nanoparticle-based formulations increase survival area of perforator flaps in a rat model
Lese, I., Graf, D. A., Tsai, C., Taddeo, A., Matter, M. T., Constantinescu, M. A., … Olariu, R. (2018). Bioactive nanoparticle-based formulations increase survival area of perforator flaps in a rat model. PLoS One, 13(11), e0207802 (19 pp.). https://doi.org/10.1371/journal.pone.0207802
Characterisation of particles in solution – a perspective on light scattering and comparative technologies
Maguire, C. M., Rösslein, M., & Wick, P. (2018). Characterisation of particles in solution – a perspective on light scattering and comparative technologies. Science and Technology of Advanced Materials, 19(1), 732-745. https://doi.org/10.1080/14686996.2018.1517587
 

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