Add to ORKGThe vascular endothelium forms the inner lining of blood vessels and actively regulates vascular permeability in response to chemical and physical stimuli. Understanding the molecular pathways and mechanisms that regulate the permeability of blood vessels is of critical importance for developing therapies for cardiovascular dysfunction and disease. Recently, we developed a novel microfluidic human engineered microvessel (hEMV) platform to enable controlled blood flow through a human endothelial lumen within a physiologic 3D extracellular matrix (ECM) into which pericytes and other stromal cells can be introduced to recapitulate tissue-specific microvascular physiology. This protocol describes how to design and fabricate the silicon hEMV dev...
From the inception of tissue engineering, tissue vascularization has been one of the greatest challe...
We describe here the design and implementation of an in vitro microvascular open model system using ...
Microfluidic technologies enable in vitro studies to closely simulate in vivo microvessel environmen...
Microfluidic organ-on-a-chip designs are used to mimic human tissues, including the vasculature. Her...
The human body employs a tube-like system calledblood vessels for transporting molecules such as o...
Vessel geometries in microengineered in vitro vascular models are important to recapitulate a pathop...
In vitro platforms to study endothelial cells and vascular biology are largely limited to 2D endothe...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2017.Ca...
Endothelial cells (ECs) line all blood contacting surfaces within the body and are exposed to hemody...
Microfluidic technologies enable in vitro studies to closely simulate in vivomicrovessel envi-ronmen...
Considerable advances have been made in microfluidic devices and their applications since the develo...
Blood vessel models are increasingly recognized to have value in understanding disease and drug disc...
A chip-based system mimicking the transport function of the human cardiovascular system has been est...
: Hemodynamics play a central role in the health and disease of the coronary and peripheral vascular...
The microvasculature plays a critical role in human physiology and is closely associated to various ...
From the inception of tissue engineering, tissue vascularization has been one of the greatest challe...
We describe here the design and implementation of an in vitro microvascular open model system using ...
Microfluidic technologies enable in vitro studies to closely simulate in vivo microvessel environmen...
Microfluidic organ-on-a-chip designs are used to mimic human tissues, including the vasculature. Her...
The human body employs a tube-like system calledblood vessels for transporting molecules such as o...
Vessel geometries in microengineered in vitro vascular models are important to recapitulate a pathop...
In vitro platforms to study endothelial cells and vascular biology are largely limited to 2D endothe...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2017.Ca...
Endothelial cells (ECs) line all blood contacting surfaces within the body and are exposed to hemody...
Microfluidic technologies enable in vitro studies to closely simulate in vivomicrovessel envi-ronmen...
Considerable advances have been made in microfluidic devices and their applications since the develo...
Blood vessel models are increasingly recognized to have value in understanding disease and drug disc...
A chip-based system mimicking the transport function of the human cardiovascular system has been est...
: Hemodynamics play a central role in the health and disease of the coronary and peripheral vascular...
The microvasculature plays a critical role in human physiology and is closely associated to various ...
From the inception of tissue engineering, tissue vascularization has been one of the greatest challe...
We describe here the design and implementation of an in vitro microvascular open model system using ...
Microfluidic technologies enable in vitro studies to closely simulate in vivo microvessel environmen...