Add to ORKGMicrovasculature is essential for the exchange of gas and nutrient for most tissues in our body. Some tissue structures such as the meniscus presents spatially confined blood vessels adjacent to non-vascularized regions. In biofabrication, mimicking the spatial distribution of such vascular components is paramount, as capillary ingrowth into non-vascularized tissues can lead to tissue matrix alterations and subsequent pathology. Multi-material three-dimensional (3D) bioprinting strategies have the potential to resolve anisotropic tissue features, although building complex constructs comprising stable vascularized and non-vascularized regions remains a major challenge to date. In this study, we developed endothelial cell-laden pro- and anti-...
Microfabrication technologies have been proposed as methods to create vascularized tissues. However...
In order for engineered tissue grafts and eventually organs to successfully integrate in a clinical ...
[[abstract]]The microvascular network is a simple but critical system that is responsible for a rang...
Microvasculature is essential for the exchange of gas and nutrient for most tissues in our body. Som...
Among advanced therapy medicinal products, tissue-engineered products have the potential to address ...
Objectives: A vascular supply network is essential in engineered tissues >100-200-mu m thickness....
Achieving vascularization of engineered tissues or structures is a major challenge in the field of t...
Microfabrication technologies have been proposed as methods to create vascularized tissues. However,...
Microfabrication technologies have been proposed as methods to create vascularized tissues. However,...
International audienceDevelopment of a microvasculature into tissue-engineered bone substitutes repr...
Clinically, large diameter artery defects (diameter larger than 6 mm) can be substituted by unbiodeg...
Survival of engineered tissues in vivo requires the presence of an internal vascular network and imm...
Microfabrication technologies have been proposed as methods to create vascularized tissues. However...
In order for engineered tissue grafts and eventually organs to successfully integrate in a clinical ...
[[abstract]]The microvascular network is a simple but critical system that is responsible for a rang...
Microvasculature is essential for the exchange of gas and nutrient for most tissues in our body. Som...
Among advanced therapy medicinal products, tissue-engineered products have the potential to address ...
Objectives: A vascular supply network is essential in engineered tissues >100-200-mu m thickness....
Achieving vascularization of engineered tissues or structures is a major challenge in the field of t...
Microfabrication technologies have been proposed as methods to create vascularized tissues. However,...
Microfabrication technologies have been proposed as methods to create vascularized tissues. However,...
International audienceDevelopment of a microvasculature into tissue-engineered bone substitutes repr...
Clinically, large diameter artery defects (diameter larger than 6 mm) can be substituted by unbiodeg...
Survival of engineered tissues in vivo requires the presence of an internal vascular network and imm...
Microfabrication technologies have been proposed as methods to create vascularized tissues. However...
In order for engineered tissue grafts and eventually organs to successfully integrate in a clinical ...
[[abstract]]The microvascular network is a simple but critical system that is responsible for a rang...