Add to ORKGElectrospinning is an efficient way to produce scaffolds for tissue engineering purposes. Optimization of cell seeding of polymer scaffolds is also essential in vitro cultivation of functional tissue constructs. In order to quantify the relationship between glucose diffusivities with/ without seeded cells across self-‐made and commercial electrospun scaffolds, a number of key parameters in electrospinning process, such as the flow rate and experimental duration are attempted for producing various electrospun fibres in which glucose diffusivity were then measured
Biodegradable scaffolds for tissue engineering have been around for some years. However, none has be...
Despite the attractive features of nanofibrous scaffolds for cell attachment in tissue-engineering (...
Polycaprolactone scaffolds were produced by electrospinning. Polymeric solutions in a mix of dichlor...
Electrospinning is an efficient way to produce scaffolds for tissue engineering purposes. Optimizati...
Electrospinning is a common technique, which is applied for fabrication of scaffold for tissue engin...
In the current research, three electrospun polycaprolactone (PCL) scaffolds with different pore morp...
Electrospinning provides a simple robust method to manufacture scaffolds for tissue engineering appl...
Resumo: O uso e pesquisa do polímero Policaprolactona (PCL) como biomaterial vem sendo amplamente di...
AbstractThe term “tissue engineering” refers to applications related with the repair or replacement ...
Electrospinning of scaffolds using a (biocompatible) polymer solution for tissue engineering is an ...
Polycaprolactone (PCL) scaffolds were produced by electrospinning. Polymeric solutions in a mix of d...
The restoration of normal functioning of damaged body tissues is one of the major objectives of tiss...
Item does not contain fulltextA biomaterial scaffold is one of the key factors for successful tissue...
none9Nowadays, efforts are dedicated to develop new biodegradable polymers for soft tissues engineer...
Nonwoven polycaprolactone materials produced by electrospinning are perspective internal prosthetic ...
Biodegradable scaffolds for tissue engineering have been around for some years. However, none has be...
Despite the attractive features of nanofibrous scaffolds for cell attachment in tissue-engineering (...
Polycaprolactone scaffolds were produced by electrospinning. Polymeric solutions in a mix of dichlor...
Electrospinning is an efficient way to produce scaffolds for tissue engineering purposes. Optimizati...
Electrospinning is a common technique, which is applied for fabrication of scaffold for tissue engin...
In the current research, three electrospun polycaprolactone (PCL) scaffolds with different pore morp...
Electrospinning provides a simple robust method to manufacture scaffolds for tissue engineering appl...
Resumo: O uso e pesquisa do polímero Policaprolactona (PCL) como biomaterial vem sendo amplamente di...
AbstractThe term “tissue engineering” refers to applications related with the repair or replacement ...
Electrospinning of scaffolds using a (biocompatible) polymer solution for tissue engineering is an ...
Polycaprolactone (PCL) scaffolds were produced by electrospinning. Polymeric solutions in a mix of d...
The restoration of normal functioning of damaged body tissues is one of the major objectives of tiss...
Item does not contain fulltextA biomaterial scaffold is one of the key factors for successful tissue...
none9Nowadays, efforts are dedicated to develop new biodegradable polymers for soft tissues engineer...
Nonwoven polycaprolactone materials produced by electrospinning are perspective internal prosthetic ...
Biodegradable scaffolds for tissue engineering have been around for some years. However, none has be...
Despite the attractive features of nanofibrous scaffolds for cell attachment in tissue-engineering (...
Polycaprolactone scaffolds were produced by electrospinning. Polymeric solutions in a mix of dichlor...