Bioprinting is an emerging technology with various applications in making functional tissue constructs to replace injured or diseased tissues. It is a relatively new approach that provides high reproducibility and precise control over the fabricated constructs in an automated manner, potentially enabling high-throughput production. During the bioprinting process, a solution of a biomaterial or a mixture of several biomaterials in the hydrogel form, usually encapsulating the desired cell types, termed the bioink, is used for creating tissue constructs. This bioink can be cross-linked or stabilized during or immediately after bioprinting to generate the final shape, structure, and architecture of the designed construct. Bioinks may be made fr...
Bioprinting is an advanced fabrication approach to engineer complex living structures as the convent...
3D bioprinting has steadily evolved and a variety of relevant research applications are being pursue...
Organ transplantation would be the first option for those whose tissues/organs have been extremely i...
Bioprinting is an emerging technology with various applications in making functional tissue construc...
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...
Abstract The native tissues are complex structures consisting of different cell types, extracellula...
The fabrication of 3D constructs using 3D bioprinting techniques aims ...
Bioprinting is a process based on additive manufacturing from materials containing living cells. The...
Three dimensional (3D) bioprinting technologies with appropriate bioinks are potentially able to fab...
3D printing, an additive manufacturing based technology for precise 3D construction, is currently wi...
The most remarkable attractiveness of tissue engineering technology relies on its capability of rege...
3D bioprinting involves the combination of 3D printing technologies with cells, growth factors and b...
It has been widely perceived that three-dimensional bioprinted synthetic tissues and organ can be a ...
Use of materials to activate non-functional or damaged organs and tissues goes back to early ages. T...
Bioprinting is an advanced fabrication approach to engineer complex living structures as the convent...
3D bioprinting has steadily evolved and a variety of relevant research applications are being pursue...
Organ transplantation would be the first option for those whose tissues/organs have been extremely i...
Bioprinting is an emerging technology with various applications in making functional tissue construc...
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...
Abstract The native tissues are complex structures consisting of different cell types, extracellula...
The fabrication of 3D constructs using 3D bioprinting techniques aims ...
Bioprinting is a process based on additive manufacturing from materials containing living cells. The...
Three dimensional (3D) bioprinting technologies with appropriate bioinks are potentially able to fab...
3D printing, an additive manufacturing based technology for precise 3D construction, is currently wi...
The most remarkable attractiveness of tissue engineering technology relies on its capability of rege...
3D bioprinting involves the combination of 3D printing technologies with cells, growth factors and b...
It has been widely perceived that three-dimensional bioprinted synthetic tissues and organ can be a ...
Use of materials to activate non-functional or damaged organs and tissues goes back to early ages. T...
Bioprinting is an advanced fabrication approach to engineer complex living structures as the convent...
3D bioprinting has steadily evolved and a variety of relevant research applications are being pursue...
Organ transplantation would be the first option for those whose tissues/organs have been extremely i...
Add to ORKG