[HTML][HTML] Development of a perfusable, hierarchical microvasculature-on-a-chip model
Several methods have been developed for generating 3D, in vitro, organ-on-chip models of
human vasculature to study vascular function, transport, and tissue engineering. However …
human vasculature to study vascular function, transport, and tissue engineering. However …
Development of a perfusable, hierarchical microvasculature-on-a-chip model
SW Chen, A Blazeski, S Zhang, SE Shelton… - 2023 - dspace.mit.edu
Several methods have been developed for generating 3D, in vitro, organ-on-chip models of
human vasculature to study vascular function, transport, and tissue engineering. However …
human vasculature to study vascular function, transport, and tissue engineering. However …
Development of a perfusable, hierarchical microvasculature-on-a-chip model
SW Chen, A Blazeski, S Zhang, SE Shelton… - Lab on a …, 2023 - pubmed.ncbi.nlm.nih.gov
Several methods have been developed for generating 3D, in vitro, organ-on-chip models of
human vasculature to study vascular function, transport, and tissue engineering. However …
human vasculature to study vascular function, transport, and tissue engineering. However …
Development of a perfusable, hierarchical microvasculature-on-a-chip model.
SW Chen, A Blazeski, S Zhang, SE Shelton… - Lab on a …, 2023 - europepmc.org
Several methods have been developed for generating 3D, in vitro, organ-on-chip models of
human vasculature to study vascular function, transport, and tissue engineering. However …
human vasculature to study vascular function, transport, and tissue engineering. However …
[HTML][HTML] Development of a perfusable, hierarchical microvasculature-on-a-chip model
SW Chen, A Blazeski, S Zhang, SE Shelton… - Lab on a …, 2023 - ncbi.nlm.nih.gov
Several methods have been developed for generating 3D, in vitro, organ-on-chip models of
human vasculature to study vascular function, transport, and tissue engineering. However …
human vasculature to study vascular function, transport, and tissue engineering. However …
Development of a perfusable, hierarchical microvasculature-on-a-chip model.
SW Chen, A Blazeski, S Zhang, SE Shelton… - Lab on a …, 2023 - europepmc.org
Several methods have been developed for generating 3D, in vitro, organ-on-chip models of
human vasculature to study vascular function, transport, and tissue engineering. However …
human vasculature to study vascular function, transport, and tissue engineering. However …