Human iPSC-derived brain endothelial microvessels in a multi-well format enable permeability screens of anti-inflammatory drugs

By

Sven Fengler, Birgit Kurkowsky, Sanjeev Kumar Kaushalya, Wera Roth, Eugenio Fava, Philip Denner

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Human iPSC-derived brain endothelial microvessels in a multi-well format enable permeability screens of anti-inflammatory drugs

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Human iPSC-derived brain endothelial microvessels in a multi-well format enable permeability screens of anti-inflammatory drugs

Access the full publication

Human iPSC-derived brain endothelial microvessels in a multi-well format enable permeability screens of anti-inflammatory drugs

Access the full publication

Human iPSC-derived brain endothelial microvessels in a multi-well format enable permeability screens of anti-inflammatory drugs

Access the full publication

Human iPSC-derived brain endothelial microvessels in a multi-well format enable permeability screens of anti-inflammatory drugs

Access the full publication

Human iPSC-derived brain endothelial microvessels in a multi-well format enable permeability screens of anti-inflammatory drugs

Access the full publication

By

Sven Fengler, Birgit Kurkowsky, Sanjeev Kumar Kaushalya, Wera Roth, Eugenio Fava, Philip Denner

Access the full publication

Human iPSC-derived brain endothelial microvessels in a multi-well format enable permeability screens of anti-inflammatory drugs

Access the full publication

Human iPSC-derived brain endothelial microvessels in a multi-well format enable permeability screens of anti-inflammatory drugs

Access the full publication

By

Sven Fengler, Birgit Kurkowsky, Sanjeev Kumar Kaushalya, Wera Roth, Eugenio Fava, Philip Denner