Electroporation-mediated HGF gene transfer increases mesenchymal stem cell and decreases MMP24 levels in a bleomycin-induced lung injury model.
A. Gazdhar (Bern, Switzerland), K. Fytianos (Bern, Switzerland), S. Pantasis (Zurich, Switzerland), S. Mykoniati (Delemont, Switzerland), M. Bordoli (Zurich, Switzerland), F. Batty (St Gallen, Switzerland), K. Hostettler (Basel, Switzerland), T. Geiser (Bern, Switzerland)
Source: International Congress 2019 – New mechanistic insights into pulmonary fibrosis
Session: New mechanistic insights into pulmonary fibrosis
Session type: Thematic Poster
Number: 2416
Disease area: Interstitial lung diseases
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A. Gazdhar (Bern, Switzerland), K. Fytianos (Bern, Switzerland), S. Pantasis (Zurich, Switzerland), S. Mykoniati (Delemont, Switzerland), M. Bordoli (Zurich, Switzerland), F. Batty (St Gallen, Switzerland), K. Hostettler (Basel, Switzerland), T. Geiser (Bern, Switzerland). Electroporation-mediated HGF gene transfer increases mesenchymal stem cell and decreases MMP24 levels in a bleomycin-induced lung injury model.. 2416
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