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The neat thing about this is that the scaffold can be designed to dissolve once the cells finish rebuilding their habitat.
The nano-fibrous SF/SA scaffold can be potentially used in tissue engineering.
The 3D scaffold can be constructed via stacking these monolayer structures.
In this range, the geometry of the scaffold can be used to finely tune its stiffness.
The microstructure of the gelatin scaffold can be modulated by the crosslinking temperature.
This study demonstrates that such a scaffold can be built up using magnetic alignment.
Furthermore, a 3D CH scaffold can be successfully seeded with cells.
These characterizations indicated that this scaffold can be considered as an ideal candidate for tissue engineering.
Hence, alginate/nanoTiO2 composite scaffold can be used as a better option for tissue regeneration.
Considering the obtained results, the proposed scaffold can be considered suitable for bone tissue regeneration.
The first structure of a sea anemone potassium channel toxin reveals how a novel structural scaffold can be used to present key functional groups for channel blockade.
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