10.6084/m9.figshare.5881822.v1 Severin Mühleder Severin Mühleder Karoline Pill Karoline Pill Mira Schaupper Mira Schaupper Krystyna Labuda Krystyna Labuda Eleni Priglinger Eleni Priglinger Pablo Hofbauer Pablo Hofbauer Verena Charwat Verena Charwat Uwe Marx Uwe Marx Heinz Redl Heinz Redl Wolfgang Holnthoner Wolfgang Holnthoner Additional file 4: of The role of fibrinolysis inhibition in engineered vascular networks derived from endothelial cells and adipose-derived stem cells Springer Nature 2018 Vascularisation Fibrin Endothelial cells Adipose-derived stem cells 2018-02-12 05:00:00 Journal contribution https://springernature.figshare.com/articles/journal_contribution/Additional_file_4_of_The_role_of_fibrinolysis_inhibition_in_engineered_vascular_networks_derived_from_endothelial_cells_and_adipose-derived_stem_cells/5881822 Aprotinin does not impair network formation of endothelial cells in a 2D setup. CD31 staining of endothelial cells (either HUVEC or ECFC) reveals tube-like structures when co-cultured with ASC in a 2D-setup devoid of fibrin. Aprotinin (100 KIU/ml) has no effect on HUVEC 2D tube formation. Scale bar: 100 μm or 50 μm as indicated. (DOC 370 kb)