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Blank, F; Gerber, P; Rothen-Rutishauser, B; Sakulkhu, U; Salaklang, J; de Peyer, K; Gehr, P; Nicod, LP; Hofmann, H; Geiser, T; Petri-Fink, A; von Garnier, C (2011). Biomedical nanoparticles retain an immature like functional state and show reduced antigen specific CD4+ T cell stimulation in vitro. Nanotoxicology(Jan 2011) London: Informa Healthcare
Blank, F; Gerber, P; Fink, A; Rothen-Rutishauser, B; de Peyer, K; Geiser, T; Nicod, LP; von Garnier, C (2010). Dendritic cells exposed to biomedical nanoparticles retain an immature like functional state and show reduced antigen specific CD4+ T cell stimulation in vitro. American journal of respiratory and critical care medicine, 181(A3096) New York, N.Y.: American Lung Association
Blank, F; Gerber, P; Fink, A; Rothen-Rutishauser, B; de Peyer, K; Nicod, L; Geiser, T; von Garnier, C (2010). Exposure of dendritic cells to biomedical nanoparticles decreases antigen processing capacity and specific CD4+ T cell stimulation. In: , (ed.) Swiss Society for Pneumology. Lausanne: Swiss Society for Pneumology
Blank, F; Gerber, P; Fink, A; Rothen-Rutishauser, B; de Peyer, K; Nicod, L; Geiser, T; von Garnier, C (2010). Exposure of dendritic cells to biomedical nanoparticles decreases antigen processing capacity and specific CD4+ T cell stimulation. In: European Respiratory Society Annual Conference. Barcelona, Spain: European Respiratory Society Annual Conference
Blank, F; Gerber, P; Fink, A; Rothen-Rutishauser, B; de Peyer, K; Nicod, L; Geiser, T; von Garnier, C (2010). Exposure of dendritic cells to biomedical nanoparticles decreases antigen processing capacity and specific CD4+ T cell stimulation. In: 11th International Symposium on dendritic cells in fundamental and clinical immunology. Lugano.
Blank, F; Gerber, P; Fink, A; Rothen-Rutishauser, B; de Peyer, K; Nicod, L; Geiser, T; von Garnier, C (2010). Exposure of dendritic cells to biomedical nanoparticles decreases antigen processing capacity and specific CD4+ T cell stimulation. In: Day of clinical research at the Bern University. Bern: Day of clinical research at the Bern University
Blank, F; Gerber, P; Fink, A; Rothen-Rutishauser, V; de Peyer, K; Nicod, L; Geiser, T; von Garnier, C (2009). Dendritic cells exposed to biomedical nanoparticles retain an immature like functional state and show reduced antigen specific CD4+ T cell stimulation in vitro. In: Conference of the American Thoracic Society. San Diego.
von Garnier, C; Gerber, P; Fink, A; Rothen-Rutishauser, B; de Peyer, K; Nicod, L; Geiser, T (2009). Exposure of dendritic cells to biomedical nanoparticles down-regulates antigen-specific CD4+ T cell stimulation. In: International conference of the European Respiratory Society. Wien.