Topics
electrospinningSoftware
glucoseChemical substance
polymerBand
polycaprolactoneChemical substance
cell cultureElection
Electrospinning is a common technique, which is applied for fabrication of scaffold for tissue engineering bioreactors. For making the scaffolds with desired morphology, a thorough understanding of the effects of the key parameters on nutrient transport in the scaffold are needed. Furthermore, it is necessary to have methods that predict the nutrient transport behavior. To address these issues partially, we prepare electro-spun polycaprolactone (PCL) scaffolds with different pore morphology by using different electrospinning duration and polymer solution flow rate. . Subsequently, the glucose diffusivities of these scaffolds imbibed in cell culture medium (CCM) and water are then measured. It is observed that the electrospinning process is ...
Despite the attractive features of nanofibrous scaffolds for cell attachment in tissue-engineering (...
Tissue engineering has evolved into an exciting area of research due to its potential in regenerativ...
Electrospinning of scaffolds using a (biocompatible) polymer solution for tissue engineering is an ...
In three dimensional (3D) bone tissue engineering, the nutrient transfer process is one of the main ...
In the current research, three electrospun polycaprolactone (PCL) scaffolds with different pore morp...
There has been an increasing interest in the concept of growing artificial tissues in bioreactors wh...
There has been an increasing interest in the concept of growing artificial tissues in bioreactors wh...
There has been an increasing interest in the concept of growing artificial tissues in bioreactors wh...
Electrospinning is an efficient way to produce scaffolds for tissue engineering purposes. Optimizati...
Unlike thin tissues (e.g., skin) which has been successfully grown, growing thick tissues (e.g., bon...
Electrospun fibrous materials have increasing applications in regenerative medicine due to the simil...
Electrospun nanofibrous structures provide good performance to scaffolds in tissue engineering. We m...
This article describes the first steps toward comprehensive characterization of molecular transport ...
Despite the attractive features of nanofibrous scaffolds for cell attachment in tissue-engineering (...
Tissue engineering has evolved into an exciting area of research due to its potential in regenerativ...
Electrospinning of scaffolds using a (biocompatible) polymer solution for tissue engineering is an ...
In three dimensional (3D) bone tissue engineering, the nutrient transfer process is one of the main ...
In the current research, three electrospun polycaprolactone (PCL) scaffolds with different pore morp...
There has been an increasing interest in the concept of growing artificial tissues in bioreactors wh...
There has been an increasing interest in the concept of growing artificial tissues in bioreactors wh...
There has been an increasing interest in the concept of growing artificial tissues in bioreactors wh...
Electrospinning is an efficient way to produce scaffolds for tissue engineering purposes. Optimizati...
Unlike thin tissues (e.g., skin) which has been successfully grown, growing thick tissues (e.g., bon...
Electrospun fibrous materials have increasing applications in regenerative medicine due to the simil...
Electrospun nanofibrous structures provide good performance to scaffolds in tissue engineering. We m...
This article describes the first steps toward comprehensive characterization of molecular transport ...
Despite the attractive features of nanofibrous scaffolds for cell attachment in tissue-engineering (...
Tissue engineering has evolved into an exciting area of research due to its potential in regenerativ...
Electrospinning of scaffolds using a (biocompatible) polymer solution for tissue engineering is an ...
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