Topics
lumenAnatomical structure
endothelial cellAnatomical structure
collagenProtein
blood capillaryAnatomical structure
Achieving vascularization of engineered tissues or structures is a major challenge in the field of tissue engineering. Hitherto, studies on vascularization have demonstrated limited control of vascular network geometry, such as vasculature direction and network density. An open vascular lumen is crucial to ensure that cells survive and that metabolic activity is fully functional in large‐sized tissues. Herein, a method based on high water‐dispersible collagen microfibers (CMF) to fabricate capillary orientation‐controllable 3D tissue with an open vascular lumen using a dispensing machine is reported. A twenty micrometers‐long CMF (CMF‐20) with high dispersion property are shown to be more effective for dispensing a homogenous tissue and ind...
This paper presents a new method to align collagen nanofibers on arbitrary-shaped 3-dimensional (3D)...
Success of 3D tissue substitutes in clinical applications depends on the presence of vascular networ...
Cells in vivo are surrounded by a fibrous matrix of proteins and macromolecules called the extracell...
Achieving vascularization of engineered tissues or structures is a major challenge in the field of t...
Alignment of collagen type I fibers is a hallmark of both physiological and pathological tissue remo...
Microvasculature is essential for the exchange of gas and nutrient for most tissues in our body. Som...
Objectives: A vascular supply network is essential in engineered tissues >100-200-mu m thickness....
Engineered tissues featuring aligned ECM possess superior regenerative capabilities for the healing ...
Collagen and fibronectin matrices are known to stimulate migration of microvascular endothelial cell...
<div><p>In microvascular vessels, endothelial cells are aligned longitudinally whereas several compo...
Here, we describe a porous 3-dimensional collagen scaffold material that supports capillary formatio...
Here, we describe a porous 3-dimensional collagen scaffold material that supports capillary formatio...
IntroductionThe orientation of collagen fibers in native tissues plays an important role in cell sig...
Fabrication of aligned microfiber scaffolds is critical in successful engineering of anisotropic tis...
Current three dimensional (3D) models for microvasculature fail to understand the combinatorial role...
This paper presents a new method to align collagen nanofibers on arbitrary-shaped 3-dimensional (3D)...
Success of 3D tissue substitutes in clinical applications depends on the presence of vascular networ...
Cells in vivo are surrounded by a fibrous matrix of proteins and macromolecules called the extracell...
Achieving vascularization of engineered tissues or structures is a major challenge in the field of t...
Alignment of collagen type I fibers is a hallmark of both physiological and pathological tissue remo...
Microvasculature is essential for the exchange of gas and nutrient for most tissues in our body. Som...
Objectives: A vascular supply network is essential in engineered tissues >100-200-mu m thickness....
Engineered tissues featuring aligned ECM possess superior regenerative capabilities for the healing ...
Collagen and fibronectin matrices are known to stimulate migration of microvascular endothelial cell...
<div><p>In microvascular vessels, endothelial cells are aligned longitudinally whereas several compo...
Here, we describe a porous 3-dimensional collagen scaffold material that supports capillary formatio...
Here, we describe a porous 3-dimensional collagen scaffold material that supports capillary formatio...
IntroductionThe orientation of collagen fibers in native tissues plays an important role in cell sig...
Fabrication of aligned microfiber scaffolds is critical in successful engineering of anisotropic tis...
Current three dimensional (3D) models for microvasculature fail to understand the combinatorial role...
This paper presents a new method to align collagen nanofibers on arbitrary-shaped 3-dimensional (3D)...
Success of 3D tissue substitutes in clinical applications depends on the presence of vascular networ...
Cells in vivo are surrounded by a fibrous matrix of proteins and macromolecules called the extracell...
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