Add to ORKGA key challenge in tissue engineering is overcoming cell death in the scaffold interior due to the limited diffusion of oxygen and nutrients therein. We hypothesized here that immobilizing a gradient of vascular endothelial growth factor (VEGF-165) would guide endothelial cells into the interior of the scaffold thereby enhancing angiogenesis. The protein was immobilized onto a collagen scaffold through carbodiimide chemistry by one of the three methods experimented: placing 5 µl of the solution at the center of the scaffold to create a ~2 ng/ml/mm gradient in a radial direction. D4T endothelial cells were observed to be guided by this VEGF-165 gradient deep into the center of the scaffold compared to both uniformly immobilized VEGF-165 and ...
Here, we describe a porous 3-dimensional collagen scaffold material that supports capillary formatio...
Tissue engineering has been recognized in recent years as a viable solution for repair of tissue def...
One of the greatest challenges currently faced in tissue engineering is the incorporation of vascula...
A key challenge in tissue engineering is overcoming cell death in the scaffold interior due to the l...
Delivery of genetically modified cells overexpressing Vascular Endothelial Growth Factor (VEGF) is a...
Delivery of genetically modified cells overexpressing Vascular Endothelial Growth Factor (VEGF) is a...
The goal of therapeutic angiogenesis is the development of functional and mature vasculature by comb...
Porous scaffolds are limited in volume due to diffusion constraint and delay of vascular network for...
In tissue engineering, the composition and the structural arrangement of molecular components within...
Three-dimensional (3D) tissue models have significantly improved our understanding of structure/func...
The success of any tissue engineering implant relies upon prompt vascularization of the cellular con...
The development of vascularized scaffolds remains one of the major challenges in tissue engineering,...
Therapeutic strategies aim to regulate vasculature either by encouraging vessel growth for tissue en...
Promotion and control of angiogenic activity have been achieved by covalently linking an angiogenic-...
Growth factor driven neovascularization is a major strategy to form new vessels for the treatment of...
Here, we describe a porous 3-dimensional collagen scaffold material that supports capillary formatio...
Tissue engineering has been recognized in recent years as a viable solution for repair of tissue def...
One of the greatest challenges currently faced in tissue engineering is the incorporation of vascula...
A key challenge in tissue engineering is overcoming cell death in the scaffold interior due to the l...
Delivery of genetically modified cells overexpressing Vascular Endothelial Growth Factor (VEGF) is a...
Delivery of genetically modified cells overexpressing Vascular Endothelial Growth Factor (VEGF) is a...
The goal of therapeutic angiogenesis is the development of functional and mature vasculature by comb...
Porous scaffolds are limited in volume due to diffusion constraint and delay of vascular network for...
In tissue engineering, the composition and the structural arrangement of molecular components within...
Three-dimensional (3D) tissue models have significantly improved our understanding of structure/func...
The success of any tissue engineering implant relies upon prompt vascularization of the cellular con...
The development of vascularized scaffolds remains one of the major challenges in tissue engineering,...
Therapeutic strategies aim to regulate vasculature either by encouraging vessel growth for tissue en...
Promotion and control of angiogenic activity have been achieved by covalently linking an angiogenic-...
Growth factor driven neovascularization is a major strategy to form new vessels for the treatment of...
Here, we describe a porous 3-dimensional collagen scaffold material that supports capillary formatio...
Tissue engineering has been recognized in recent years as a viable solution for repair of tissue def...
One of the greatest challenges currently faced in tissue engineering is the incorporation of vascula...