[HTML][HTML] 3D microtumors in vitro supported by perfused vascular networks
There is a growing interest in developing microphysiological systems that can be used to
model both normal and pathological human organs in vitro. This “organs-on-chips” …
model both normal and pathological human organs in vitro. This “organs-on-chips” …
[PDF][PDF] 3D microtumors in vitro supported by perfused vascular networks
A Sobrino, DTT Phan, R Datta, X Wang… - Scientific …, 2016 - escholarship.org
Results Establishment of Vascularized Micro-Organs. The VMO platform allows for the
reproducible creation of perfused vascular networks in vitro. These networks support …
reproducible creation of perfused vascular networks in vitro. These networks support …
[PDF][PDF] 3D microtumors in vitrosupported by perfused vascular networks
A Sobrino, DTT Phan, R Datta, X Wang, SJ Hachey… - cyberleninka.org
Results Establishment of Vascularized Micro-Organs. The VMO platform allows for the
reproducible creation of perfused vascular networks in vitro. These networks support …
reproducible creation of perfused vascular networks in vitro. These networks support …
3D microtumors in vitro supported by perfused vascular networks
A Sobrino, DTT Phan, R Datta, X Wang, SJ Hachey… - Scientific Reports, 2016 - cir.nii.ac.jp
抄録< jats: title> Abstract</jats: title>< jats: p> There is a growing interest in developing
microphysiological systems that can be used to model both normal and pathological human …
microphysiological systems that can be used to model both normal and pathological human …
3D microtumors in vitro supported by perfused vascular networks
A Sobrino, DTT Phan, R Datta, X Wang… - Scientific …, 2016 - ui.adsabs.harvard.edu
There is a growing interest in developing microphysiological systems that can be used to
model both normal and pathological human organs in vitro. This “organs-on-chips” …
model both normal and pathological human organs in vitro. This “organs-on-chips” …
3D microtumors in vitro supported by perfused vascular networks.
A Sobrino, DT Phan, R Datta, X Wang, SJ Hachey… - Scientific …, 2016 - europepmc.org
There is a growing interest in developing microphysiological systems that can be used to
model both normal and pathological human organs in vitro. This “organs-on-chips” …
model both normal and pathological human organs in vitro. This “organs-on-chips” …
[PDF][PDF] 3D microtumors in vitro supported by perfused vascular networks
A Sobrino, DTT Phan, R Datta - Scientific Reports, 2016 - academia.edu
Results Establishment of Vascularized Micro-Organs. The VMO platform allows for the
reproducible creation of perfused vascular networks in vitro. These networks support …
reproducible creation of perfused vascular networks in vitro. These networks support …
[HTML][HTML] 3D microtumors in vitro supported by perfused vascular networks
A Sobrino, DTT Phan, R Datta, X Wang… - Scientific …, 2016 - ncbi.nlm.nih.gov
There is a growing interest in developing microphysiological systems that can be used to
model both normal and pathological human organs in vitro. This “organs-on-chips” …
model both normal and pathological human organs in vitro. This “organs-on-chips” …
3D microtumors in vitro supported by perfused vascular networks
A Sobrino, DTT Phan, R Datta, X Wang… - Scientific …, 2016 - pubmed.ncbi.nlm.nih.gov
There is a growing interest in developing microphysiological systems that can be used to
model both normal and pathological human organs in vitro. This" organs-on-chips" …
model both normal and pathological human organs in vitro. This" organs-on-chips" …