Add to ORKGBiodegradable scaffolds for tissue engineering have been around for some years. However, none has been successful in engineering viable autologous blood vessels which have inner diameter less than 5mm and wall thickness of 100m. In this report, a tubular scaffold was fabricated using the electrospinning technique with a variety of parameters (weight percentage of polymer, voltage, flow rate, distance between needle tip to collector and speed of rotation of collector) to reach the dimensions of a small blood vessel. The biodegradable material used was Poly (L-lactide/ε-caprolactone) (PLC). In order to determine the optimal combination of these conditions, the scaffold was subjected to characterisation techniques such as Scanning Electron Mi...
Cardiovascular system is composed of the heart, blood vessels and blood. This system consists of fiv...
Tissue engineering can effectively contribute to the development of novel vascular prostheses aimed ...
Tissue engineering can effectively contribute to the development of novel vascular prostheses aimed ...
The function of scaffolds in tissue engineering is to guide the organization, growth and differentia...
A novel biomimetic vascular graft scaffolds were produced by electrospinning method with the most su...
© 2018 Taylor & Francis A novel biomimetic vascular graft scaffolds were produced by electrospinni...
The successful replacement of small-diameter blood vessels, affected by cardiovascular disease, with...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Tissue engineering can effectively contribute to the development of novel vascular prostheses aimed ...
Electrospinning is a technique widely used for tissue engineering. Despite hurdles, electrospun vasc...
Cardiovascular system is composed of the heart, blood vessels and blood. This system consists of fiv...
Tissue engineering can effectively contribute to the development of novel vascular prostheses aimed ...
Tissue engineering can effectively contribute to the development of novel vascular prostheses aimed ...
The function of scaffolds in tissue engineering is to guide the organization, growth and differentia...
A novel biomimetic vascular graft scaffolds were produced by electrospinning method with the most su...
© 2018 Taylor & Francis A novel biomimetic vascular graft scaffolds were produced by electrospinni...
The successful replacement of small-diameter blood vessels, affected by cardiovascular disease, with...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Aiming to develop a scaffold architecture mimicking morphological and mechanically that of a blood v...
Tissue engineering can effectively contribute to the development of novel vascular prostheses aimed ...
Electrospinning is a technique widely used for tissue engineering. Despite hurdles, electrospun vasc...
Cardiovascular system is composed of the heart, blood vessels and blood. This system consists of fiv...
Tissue engineering can effectively contribute to the development of novel vascular prostheses aimed ...
Tissue engineering can effectively contribute to the development of novel vascular prostheses aimed ...