Topics
3D printingMusic genre
3D bioprintingElection
Schwann cellsAnatomical structure
bioprintingElection
extracellular matrixAnatomical structure
gelatinFood
Nerve guidance conduits (NGCs) are an essential solution for peripheral nerve repair and regeneration in tissue engineering and medicine. However, the ability of current NGCs is limited to repairing longer nerve gap (i.e., >20 mm) because it cannot meet the following two conditions simultaneously: (1) directional guidance of the axial high-density channels and (2) regenerative stimulation of the extracellular matrix secreted by Schwann cells (SCs). Therefore, we propose a multi-material 3D bioprinting process to fabricate multi-channel nerve guide conduits (MNGCs) containing SCs. In the article, cell-laden methacrylate gelatin (GelMA) was used as the bulk material of MNGCs. To improve the printing accuracy of the axial channels and the s...
Despite tissue engineering advances, current nerve guidance conduits (NGCs) are still failing in rep...
Following severe nerve injuries, surgery is required to physically reconnect the injured nerve for r...
In recent years, rapid prototyping (RP) technologies initially developed to create prototypes prior ...
Nerve guidance conduits (NGCs) are an essential solution for peripheral nerve repair and regeneratio...
The goal of nerve tissue engineering is to promote and guide axon growth across a site of nerve inju...
Nerve conduits provide an advanced tool for repairing the injured peripheral nerve that often causes...
Advancement in 3D bioprinting has enabled this technology to be used in various biomedical applicati...
The human nervous system lacks an inherent ability to regenerate its components upon damage or disea...
The performance of artificial nerve guidance conduits (NGC) in peripheral nerve regeneration can be ...
Injuries to the peripheral nervous system affect 1 in 1,000 individuals each year. The implication o...
After many decades of biomaterials research for peripheral nerve regeneration, a clinical product (t...
The prevalence of peripheral nerve injuries resulting in loss of motor function, sensory function, o...
This study explores the use of gelatin as a biomaterial for 3D printing of neural scaffolds, with a ...
Injuries to the peripheral nervous system affect 1 in 1,000 individuals each year. The implication o...
In recent years, rapid prototyping (RP) technologies initially developed to create prototypes prior ...
Despite tissue engineering advances, current nerve guidance conduits (NGCs) are still failing in rep...
Following severe nerve injuries, surgery is required to physically reconnect the injured nerve for r...
In recent years, rapid prototyping (RP) technologies initially developed to create prototypes prior ...
Nerve guidance conduits (NGCs) are an essential solution for peripheral nerve repair and regeneratio...
The goal of nerve tissue engineering is to promote and guide axon growth across a site of nerve inju...
Nerve conduits provide an advanced tool for repairing the injured peripheral nerve that often causes...
Advancement in 3D bioprinting has enabled this technology to be used in various biomedical applicati...
The human nervous system lacks an inherent ability to regenerate its components upon damage or disea...
The performance of artificial nerve guidance conduits (NGC) in peripheral nerve regeneration can be ...
Injuries to the peripheral nervous system affect 1 in 1,000 individuals each year. The implication o...
After many decades of biomaterials research for peripheral nerve regeneration, a clinical product (t...
The prevalence of peripheral nerve injuries resulting in loss of motor function, sensory function, o...
This study explores the use of gelatin as a biomaterial for 3D printing of neural scaffolds, with a ...
Injuries to the peripheral nervous system affect 1 in 1,000 individuals each year. The implication o...
In recent years, rapid prototyping (RP) technologies initially developed to create prototypes prior ...
Despite tissue engineering advances, current nerve guidance conduits (NGCs) are still failing in rep...
Following severe nerve injuries, surgery is required to physically reconnect the injured nerve for r...
In recent years, rapid prototyping (RP) technologies initially developed to create prototypes prior ...
Add to ORKG