Add to ORKGCollagen-glycosaminoglycan scaffolds that have been used clinically for skin regeneration have also shown significant promise for other applications in tissue engineering. However, regeneration of thicker tissues with the aid of implanted biomaterials is likely to depend on, or be accelerated by, the ability to establish rapid vascularisation of the implant. The present study aims to establish a nascent vascular network in vitro within a CG scaffold as a first step towards that goal. Mesenchymal stem cells (MSCs) were chosen as primary vasculogenic candidate cells and a culture medium that promoted maximal network formation on Matrigel by these cells was selected. MSCs seeded in the CG scaffold formed networks of cord-like structures after ...
Survival of engineered tissues in vivo requires the presence of an internal vascular network and imm...
Modular tissue engineering is a strategy to create scalable, self-assembling, three-dimensional (3D)...
Development of a functional vascular network is a major problem limiting current tissue engineering ...
Collagen-glycosaminoglycan scaffolds that have been used clinically for skin regeneration have also ...
A major problem in the field of tissue engineering (TE) is graft failure due to avascular necrosis o...
All engineered bioartificial structures developed for tissue regeneration require oxygen and nutrien...
All engineered bioartificial structures developed for tissue regeneration require oxygen and nutrien...
Porous scaffolds are limited in volume due to diffusion constraint and delay of vascular network for...
Collagen-glycosaminoglycan (CG) scaffolds have been widely developed for a range of regenerative med...
Tissue engineering offers the opportunity to develop vascular scaffolds that mimic the morphology of...
Pre-cellularised scaffolds are limited in volume due to the constraints of the time delay required f...
An in vitro tissue construct amenable to perfusion was formed by randomly packing mesenchymal stroma...
A major challenge in regenerative medicine is the development of grafts that can be vascularised suc...
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...
Survival of engineered tissues in vivo requires the presence of an internal vascular network and imm...
Modular tissue engineering is a strategy to create scalable, self-assembling, three-dimensional (3D)...
Development of a functional vascular network is a major problem limiting current tissue engineering ...
Collagen-glycosaminoglycan scaffolds that have been used clinically for skin regeneration have also ...
A major problem in the field of tissue engineering (TE) is graft failure due to avascular necrosis o...
All engineered bioartificial structures developed for tissue regeneration require oxygen and nutrien...
All engineered bioartificial structures developed for tissue regeneration require oxygen and nutrien...
Porous scaffolds are limited in volume due to diffusion constraint and delay of vascular network for...
Collagen-glycosaminoglycan (CG) scaffolds have been widely developed for a range of regenerative med...
Tissue engineering offers the opportunity to develop vascular scaffolds that mimic the morphology of...
Pre-cellularised scaffolds are limited in volume due to the constraints of the time delay required f...
An in vitro tissue construct amenable to perfusion was formed by randomly packing mesenchymal stroma...
A major challenge in regenerative medicine is the development of grafts that can be vascularised suc...
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...
Survival of engineered tissues in vivo requires the presence of an internal vascular network and imm...
Modular tissue engineering is a strategy to create scalable, self-assembling, three-dimensional (3D)...
Development of a functional vascular network is a major problem limiting current tissue engineering ...