Controlling angiogenesis within tissue engineered constructs remains a critical challenge, especially with regard to the guidance of pre-vascular network formation. Here, we aimed to regulate angiogenesis on a self-assembled honeycomb nanofibrous scaffold. Scaffolds with honeycombs patterns have several desirable properties for tissue engineering, including large surface area, high structural stability and good permeability. Furthermore, the honeycomb pattern resembles early vascular network formation. The self-assembly electrospinning approach to honeycomb scaffolds is a technically simple, rapid, and direct way to realize selective deposition of nanofibers. To evaluate cell compatibility, spreading, proliferation and tube formation, human...
One of the greatest challenges currently faced in tissue engineering is the incorporation of vascula...
The bioengineering of artificial tissue constructs requires special attention to their fast vascular...
Nanofibres for blood vessel tissue engineering: A Review is a published article of the Textile Techn...
Controlling angiogenesis within tissue engineered constructs remains a critical challenge, especiall...
Nanofibrous scaffolds can mimic the mechanical and structural properties of the natural extracellula...
Current therapeutic angiogenesis strategies are focused on the development of biologically responsiv...
New blood vessel formation is essential for tissue regeneration to deliver oxygen and nutrients and ...
Tissue engineering has gained attention as an alternative approach for developing small diameter tis...
There is an acute clinical need for small-diameter vascular grafts as a treatment option for cardiov...
There is an acute clinical need for small-diameter vascular grafts as a treatment option for cardiov...
The goal of therapeutic angiogenesis is the development of functional and mature vasculature by comb...
The field of therapeutic angiogenesis has been predominantly concentrated in modalities that in-corp...
Scaffolds produced by electrospinning possess great potential for tissue engineering owing to their ...
Presently the majority of tissue engineering approaches aimed at regenerating bone relies only on po...
The development of science and technology often drew lessons from natural phenomena. Herein, inspire...
One of the greatest challenges currently faced in tissue engineering is the incorporation of vascula...
The bioengineering of artificial tissue constructs requires special attention to their fast vascular...
Nanofibres for blood vessel tissue engineering: A Review is a published article of the Textile Techn...
Controlling angiogenesis within tissue engineered constructs remains a critical challenge, especiall...
Nanofibrous scaffolds can mimic the mechanical and structural properties of the natural extracellula...
Current therapeutic angiogenesis strategies are focused on the development of biologically responsiv...
New blood vessel formation is essential for tissue regeneration to deliver oxygen and nutrients and ...
Tissue engineering has gained attention as an alternative approach for developing small diameter tis...
There is an acute clinical need for small-diameter vascular grafts as a treatment option for cardiov...
There is an acute clinical need for small-diameter vascular grafts as a treatment option for cardiov...
The goal of therapeutic angiogenesis is the development of functional and mature vasculature by comb...
The field of therapeutic angiogenesis has been predominantly concentrated in modalities that in-corp...
Scaffolds produced by electrospinning possess great potential for tissue engineering owing to their ...
Presently the majority of tissue engineering approaches aimed at regenerating bone relies only on po...
The development of science and technology often drew lessons from natural phenomena. Herein, inspire...
One of the greatest challenges currently faced in tissue engineering is the incorporation of vascula...
The bioengineering of artificial tissue constructs requires special attention to their fast vascular...
Nanofibres for blood vessel tissue engineering: A Review is a published article of the Textile Techn...