International audienceMost achievements to engineer blood vessels are based on multiple-step manipulations such as manual sheet rolling or sequential cell seeding followed by scaffold degradation. Here, we propose a one-step strategy using a microfluidic coextrusion device to produce mature functional blood vessels. A hollow alginate hydrogel tube is internally coated with extracellular matrix to direct the self-assembly of a mixture of endothelial cells (ECs) and smooth muscle cells (SMCs). The resulting vascular structure has the correct configuration of lumen, an inner lining of ECs, and outer sheath of SMCs. These "vesseloids" reach homeostasis within a day and exhibit the following properties expected for functional vessels (i) quiesce...
Tissue vascularization and integration with host circulation remains a key barrier to the translatio...
In order for engineered tissue grafts and eventually organs to successfully integrate in a clinical ...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2008.Includes bibliographic...
Most achievements to engineer blood vessels are based on multiple-step manipulations such as manual ...
The bioengineering of artificial tissue constructs requires special attention to their fast vascular...
The survival and function of transplanted tissue engineered constructs and organs require a function...
The survival and function of transplanted tissue engineered constructs and organs require a function...
Current scientific attempts to generate in vitro tissue-engineered living blood vessels (TEBVs) show...
Current scientific attempts to generate in vitro tissue-engineered living blood vessels (TEBVs) show...
Current scientific attempts to generate in vitro tissue-engineered living blood vessels (TEBVs) show...
The greatest ambition and promise of tissue engineering is to manufacture human organs. Before “made...
Current scientific attempts to generate in vitro tissue-engineered living blood vessels (TEBVs) show...
The success of tissue engineering depends on the rapid and efficient formation of a functional blood...
Here we describe a strategy to model blood vessel development using a well-defined induced pluripote...
The greatest ambition and promise of tissue engineering is to manufacture human organs. Before “made...
Tissue vascularization and integration with host circulation remains a key barrier to the translatio...
In order for engineered tissue grafts and eventually organs to successfully integrate in a clinical ...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2008.Includes bibliographic...
Most achievements to engineer blood vessels are based on multiple-step manipulations such as manual ...
The bioengineering of artificial tissue constructs requires special attention to their fast vascular...
The survival and function of transplanted tissue engineered constructs and organs require a function...
The survival and function of transplanted tissue engineered constructs and organs require a function...
Current scientific attempts to generate in vitro tissue-engineered living blood vessels (TEBVs) show...
Current scientific attempts to generate in vitro tissue-engineered living blood vessels (TEBVs) show...
Current scientific attempts to generate in vitro tissue-engineered living blood vessels (TEBVs) show...
The greatest ambition and promise of tissue engineering is to manufacture human organs. Before “made...
Current scientific attempts to generate in vitro tissue-engineered living blood vessels (TEBVs) show...
The success of tissue engineering depends on the rapid and efficient formation of a functional blood...
Here we describe a strategy to model blood vessel development using a well-defined induced pluripote...
The greatest ambition and promise of tissue engineering is to manufacture human organs. Before “made...
Tissue vascularization and integration with host circulation remains a key barrier to the translatio...
In order for engineered tissue grafts and eventually organs to successfully integrate in a clinical ...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2008.Includes bibliographic...
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