The crisis of organ donors is an urgent call to develop fully functional substitutes in a short time. Additive manufacture applied to tissue engineering (bioprinting) is a method under development that has an interesting future, but it has difficulties with cell viability and density. Injectable microspheres loaded with cells that can be incorporated into hydrogel inks may be an alternative route to tackle this problem. The present work is devoted to fabricate highly spherical gelatin-composite hydroxyapatite microspheres starting with a calcium phosphate cement precursor by the emulsion method, controlling the effect of the gelatin concentration and the liquid to powder ratio of the cement precursor in the form and size of the spheres. The...
Abstract. Hydroxyapatite (HAP) microspheres with peculiar spheres-in-sphere morphology were prepared...
3D bioprinting utilises a 3D printing technique with the addition of cells within the printed constr...
The regeneration of injured or damaged tissues by cell delivery approaches requires the fabrication ...
The crisis of organ donors is an urgent call to develop fully functional substitutes in a short time...
The crisis of organ donors is an urgent call to develop fully functional substitutes in a short time...
Porosity plays a key role on the osteogenic performance of bone scaffolds. Direct Ink Writing (DIW) ...
Low temperature self-setting ceramic inks have been scarcely investigated for solid freeform fabrica...
Nano-hydroxyapatite/gelatin (nHA/Ge) microspheres are currently used in bone tissue engineering as b...
In bioprinting approaches, the choice of bioink plays an important role since it must be processable...
In this study, we developed novel microspheres comprised of an apatite-gelatin nanocomposite. This m...
In bioprinting approaches, the choice of bioink plays an important role since it must be processable...
In bioprinting approaches, the choice of bioink plays an important role since it must be processable...
For tissue engineered bone constructs, calcium phosphate cement (CPC) has a high potential as scaffo...
Developing appropriate cell culturing techniques to populate scaffolds has become a great challenge ...
Additive manufacturing holds promise for the fabrication of three-dimensional scaffolds with precise...
Abstract. Hydroxyapatite (HAP) microspheres with peculiar spheres-in-sphere morphology were prepared...
3D bioprinting utilises a 3D printing technique with the addition of cells within the printed constr...
The regeneration of injured or damaged tissues by cell delivery approaches requires the fabrication ...
The crisis of organ donors is an urgent call to develop fully functional substitutes in a short time...
The crisis of organ donors is an urgent call to develop fully functional substitutes in a short time...
Porosity plays a key role on the osteogenic performance of bone scaffolds. Direct Ink Writing (DIW) ...
Low temperature self-setting ceramic inks have been scarcely investigated for solid freeform fabrica...
Nano-hydroxyapatite/gelatin (nHA/Ge) microspheres are currently used in bone tissue engineering as b...
In bioprinting approaches, the choice of bioink plays an important role since it must be processable...
In this study, we developed novel microspheres comprised of an apatite-gelatin nanocomposite. This m...
In bioprinting approaches, the choice of bioink plays an important role since it must be processable...
In bioprinting approaches, the choice of bioink plays an important role since it must be processable...
For tissue engineered bone constructs, calcium phosphate cement (CPC) has a high potential as scaffo...
Developing appropriate cell culturing techniques to populate scaffolds has become a great challenge ...
Additive manufacturing holds promise for the fabrication of three-dimensional scaffolds with precise...
Abstract. Hydroxyapatite (HAP) microspheres with peculiar spheres-in-sphere morphology were prepared...
3D bioprinting utilises a 3D printing technique with the addition of cells within the printed constr...
The regeneration of injured or damaged tissues by cell delivery approaches requires the fabrication ...
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