Our long-term interest is to explore the potential of microfluidics for the development of advanced tools for cell studies and analysis. This contribution describes a method to cultivate Human Umbilical Vein Endothelial Cells (HUVEC) in microchannels without continuous flow. The effects of seeding and culture conditions on cell behavior were studied.</p
Human umbilical vein endothelial cell (HUVEC) isolated from umbilical cord is widely used as endothe...
Organs-on-chips are microengineered in vitro tissue structures that can be used as platforms for phy...
Major obstacles for successful application of endothelial cell seeding in synthetic vascular grafts ...
Our long-term interest is to explore the potential of microfluidics for the development of advanced ...
Our long-term goal is to develop advanced tools for cell studies and analysis based on microfluidic ...
This report describes the development of endothelial cell (EC) cultivation devices with different ch...
The present study describes a dynamic system that can be used in a three- dimensional (3D) in vitro ...
Endothelial cells (ECs) line all blood contacting surfaces within the body and are exposed to hemody...
The human body employs a tube-like system calledblood vessels for transporting molecules such as o...
Human umbilical vein endothelial cell (HUVEC) isolated from umbilical cord is widely used as endothe...
Microfluidic, the technology that manipulates small amount of fluids in microscale complex devices, ...
This study presents an inexpensive and easy way to produce a microfluidic device that mimics a blood...
Microfluidic technologies enable in vitro studies to closely simulate in vivo microvessel environmen...
Microfluidic technologies enable in vitro studies to closely simulate in vivo microvessel environmen...
The human population has started to live for longer periods of time indicating that there might be a...
Human umbilical vein endothelial cell (HUVEC) isolated from umbilical cord is widely used as endothe...
Organs-on-chips are microengineered in vitro tissue structures that can be used as platforms for phy...
Major obstacles for successful application of endothelial cell seeding in synthetic vascular grafts ...
Our long-term interest is to explore the potential of microfluidics for the development of advanced ...
Our long-term goal is to develop advanced tools for cell studies and analysis based on microfluidic ...
This report describes the development of endothelial cell (EC) cultivation devices with different ch...
The present study describes a dynamic system that can be used in a three- dimensional (3D) in vitro ...
Endothelial cells (ECs) line all blood contacting surfaces within the body and are exposed to hemody...
The human body employs a tube-like system calledblood vessels for transporting molecules such as o...
Human umbilical vein endothelial cell (HUVEC) isolated from umbilical cord is widely used as endothe...
Microfluidic, the technology that manipulates small amount of fluids in microscale complex devices, ...
This study presents an inexpensive and easy way to produce a microfluidic device that mimics a blood...
Microfluidic technologies enable in vitro studies to closely simulate in vivo microvessel environmen...
Microfluidic technologies enable in vitro studies to closely simulate in vivo microvessel environmen...
The human population has started to live for longer periods of time indicating that there might be a...
Human umbilical vein endothelial cell (HUVEC) isolated from umbilical cord is widely used as endothe...
Organs-on-chips are microengineered in vitro tissue structures that can be used as platforms for phy...
Major obstacles for successful application of endothelial cell seeding in synthetic vascular grafts ...