Add to ORKGSpatially controlled proliferation, migration and differentiation of neural stem cells on novel 3D conductive scaffolds [Abstract
We demonstrate an artificial three-dimensional (3D) electrical active human neuronal network system,...
We demonstrate an artificial three-dimensional (3D) electrical active human neuronal network system,...
Nerve tissue engineering requires suitable precursor cells as well as the necessary biochemical and ...
Over the past 5 decades, there has been a drive to apply technology to enhance\ud neural regeneratio...
Over the past 5 decades, there has been a drive to apply technology to enhance neural regeneration i...
With the increasing applications of electrospun scaffolds in neural tissue engineering, this thesis ...
BACKGROUND: Three-dimensional (3D) in vitro models have been developed into more in vivo resembling ...
With the increasing applications of electrospun scaffolds in neural tissue engineering, this thesis ...
Hypothesis: Nowadays, the use of scaffolds in tissue engineering to repair and regenerate human lesi...
Tissue engineering is a promising strategy with great therapeutic potential intended to assist the n...
The ability of tissue engineered scaffolds to modulate the response of neural stem cells (e.g. adhes...
Attempts to repair the central nervous system damaged as a result of trauma or disease will depend o...
Because developed neural cells are no longer regenerative and proliferative, achieving neural regene...
Central and peripheral neural injuries are traumatic and can lead to loss of motor and sensory funct...
The use of nanofibrous scaffolds for tissue engineering applications is emerging as an important are...
We demonstrate an artificial three-dimensional (3D) electrical active human neuronal network system,...
We demonstrate an artificial three-dimensional (3D) electrical active human neuronal network system,...
Nerve tissue engineering requires suitable precursor cells as well as the necessary biochemical and ...
Over the past 5 decades, there has been a drive to apply technology to enhance\ud neural regeneratio...
Over the past 5 decades, there has been a drive to apply technology to enhance neural regeneration i...
With the increasing applications of electrospun scaffolds in neural tissue engineering, this thesis ...
BACKGROUND: Three-dimensional (3D) in vitro models have been developed into more in vivo resembling ...
With the increasing applications of electrospun scaffolds in neural tissue engineering, this thesis ...
Hypothesis: Nowadays, the use of scaffolds in tissue engineering to repair and regenerate human lesi...
Tissue engineering is a promising strategy with great therapeutic potential intended to assist the n...
The ability of tissue engineered scaffolds to modulate the response of neural stem cells (e.g. adhes...
Attempts to repair the central nervous system damaged as a result of trauma or disease will depend o...
Because developed neural cells are no longer regenerative and proliferative, achieving neural regene...
Central and peripheral neural injuries are traumatic and can lead to loss of motor and sensory funct...
The use of nanofibrous scaffolds for tissue engineering applications is emerging as an important are...
We demonstrate an artificial three-dimensional (3D) electrical active human neuronal network system,...
We demonstrate an artificial three-dimensional (3D) electrical active human neuronal network system,...
Nerve tissue engineering requires suitable precursor cells as well as the necessary biochemical and ...