Add to ORKGIn order for engineered tissue grafts and eventually organs to successfully integrate in a clinical setting, a functional vascular network is imperative. Without vasculature, the tissue constructs cannot receive nutrients essential for their survival, but also lack the stimuli that determine the tissue’s biophysical properties i.e. cell fate determination, cell to cell junctions, and cell orientation. In order for the vascular network to functionally connect to the patient, a hierarchical organization, resembling the vascular tree, is important. From previous studies it is known that fluid flow is a crucial component in controlling the formation of the vascular tree, and that the organization of the vascular network can be further controlle...
A major challenge in engineering scalable three-dimensional tissues is the generation of a functiona...
The ultimate design of functionally therapeutic engineered tissues and organs will rely on our abili...
A basic prerequisite for the survival and function of three-dimensional (3D) engineered tissue const...
In order for engineered tissue grafts and eventually organs to successfully integrate in a clinical ...
One of the challenging issues in tissue engineering is a building of functional vascular network sys...
Our living tissue is highly vascularized to facilitate transports of gaseous and bioactive molecules...
Clinically, large diameter artery defects (diameter larger than 6 mm) can be substituted by unbiodeg...
Clinically, large diameter artery defects (diameter larger than 6 mm) can be substituted by unbiodeg...
Abstract Vascularization of 3D models represents a major challenge of tissue engineering and a key p...
To engineer tissues with clinically relevant dimensions by three-dimensional bioprinting, an extende...
To engineer tissues with clinically relevant dimensions by three-dimensional bioprinting, an extende...
The inability to adequately vascularize tissues in vivo or in vitro currently limits the development...
The vascularization of tissue grafts is critical for maintaining viability of the cells within a tra...
Microfabrication technologies have been proposed as methods to create vascularized tissues. However,...
Microfabrication technologies have been proposed as methods to create vascularized tissues. However,...
A major challenge in engineering scalable three-dimensional tissues is the generation of a functiona...
The ultimate design of functionally therapeutic engineered tissues and organs will rely on our abili...
A basic prerequisite for the survival and function of three-dimensional (3D) engineered tissue const...
In order for engineered tissue grafts and eventually organs to successfully integrate in a clinical ...
One of the challenging issues in tissue engineering is a building of functional vascular network sys...
Our living tissue is highly vascularized to facilitate transports of gaseous and bioactive molecules...
Clinically, large diameter artery defects (diameter larger than 6 mm) can be substituted by unbiodeg...
Clinically, large diameter artery defects (diameter larger than 6 mm) can be substituted by unbiodeg...
Abstract Vascularization of 3D models represents a major challenge of tissue engineering and a key p...
To engineer tissues with clinically relevant dimensions by three-dimensional bioprinting, an extende...
To engineer tissues with clinically relevant dimensions by three-dimensional bioprinting, an extende...
The inability to adequately vascularize tissues in vivo or in vitro currently limits the development...
The vascularization of tissue grafts is critical for maintaining viability of the cells within a tra...
Microfabrication technologies have been proposed as methods to create vascularized tissues. However,...
Microfabrication technologies have been proposed as methods to create vascularized tissues. However,...
A major challenge in engineering scalable three-dimensional tissues is the generation of a functiona...
The ultimate design of functionally therapeutic engineered tissues and organs will rely on our abili...
A basic prerequisite for the survival and function of three-dimensional (3D) engineered tissue const...