3D bioprinting holds great promise in the field of regenerative medicine as it can create complex structures in a layer-by-layer manner using cell-laden bioinks, making it possible to imitate native tissues. Current bioinks lack both high printability and biocompatibility required in this respect. Hence, the development of bioinks that exhibit both properties is needed. In our previous study, a furfuryl-gelatin-based bioink, crosslinkable by visible light, was used for creating mouse mesenchymal stem cell-laden structures with a high fidelity. In this study, lattice mesh geometries were printed in a comparative study to test against the properties of a traditional rectangular-sheet. After 3D printing and crosslinking, both structures were a...
Three-dimensional (3D) bioprinting allows the production of artificial 3D cellular microenvironments...
3D printing, an additive manufacturing based technology for precise 3D construction, is currently wi...
Three-dimensional (3D) bioprinting is a family of enabling technologies that can be used to manufact...
3D bioprinting holds great promise in the field of regenerative medicine as it can create complex st...
Bioprinting is an emerging technology with various applications in making functional tissue construc...
Fabrication of functional tissue/organ constructs is becoming more feasible considering the recent d...
Bioprinting has become an important tool for fabricating regenerative implants and in vitro cell cul...
Bioprinting offers tremendous potential in the fabrication of functional tissue constructs for repla...
Abstract Background The worldwide demand for the organ replacement or tissue regeneration is increas...
The selection of a suitable matrix material is crucial for the development of functional, biomimetic...
Methacrylated gelatin (GelMA) has been widely used as a tissue-engineered scaffold material, but onl...
In recent years, 3D bioprinting has emerged as an innovative and versatile technology able to produc...
The fabrication of 3D constructs using 3D bioprinting techniques aims ...
A major challenge in 3D bioprinting is the limited number of bioinks that fulfill the physiochemical...
Organ transplantation would be the first option for those whose tissues/organs have been extremely i...
Three-dimensional (3D) bioprinting allows the production of artificial 3D cellular microenvironments...
3D printing, an additive manufacturing based technology for precise 3D construction, is currently wi...
Three-dimensional (3D) bioprinting is a family of enabling technologies that can be used to manufact...
3D bioprinting holds great promise in the field of regenerative medicine as it can create complex st...
Bioprinting is an emerging technology with various applications in making functional tissue construc...
Fabrication of functional tissue/organ constructs is becoming more feasible considering the recent d...
Bioprinting has become an important tool for fabricating regenerative implants and in vitro cell cul...
Bioprinting offers tremendous potential in the fabrication of functional tissue constructs for repla...
Abstract Background The worldwide demand for the organ replacement or tissue regeneration is increas...
The selection of a suitable matrix material is crucial for the development of functional, biomimetic...
Methacrylated gelatin (GelMA) has been widely used as a tissue-engineered scaffold material, but onl...
In recent years, 3D bioprinting has emerged as an innovative and versatile technology able to produc...
The fabrication of 3D constructs using 3D bioprinting techniques aims ...
A major challenge in 3D bioprinting is the limited number of bioinks that fulfill the physiochemical...
Organ transplantation would be the first option for those whose tissues/organs have been extremely i...
Three-dimensional (3D) bioprinting allows the production of artificial 3D cellular microenvironments...
3D printing, an additive manufacturing based technology for precise 3D construction, is currently wi...
Three-dimensional (3D) bioprinting is a family of enabling technologies that can be used to manufact...