The fabrication of 3D constructs using 3D bioprinting techniques aims to overcome some of the weakness curently experienced by the conventional scaffold-‐based tissue regeneration approach. One of the most challenging aspects in fabricating 3D constructs in tissue engineering is the design of a construct will relevant size that will allow the attachment and proliferation of cells while having excellent mechanical properties. Hydrogel-‐based materials are currently the suitable materials given ...
Recent developments in 3D printing technologies and design have been nothing short of spectacular. P...
Tissue regeneration using in-vitro scaffold becomes a vital mean to mimic the in-vivo counterpart du...
The field of tissue engineering has progressed tremendously over the past few decades in its ability...
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...
Three dimensional (3D) bioprinting technologies with appropriate bioinks are potentially able to fab...
Three-dimensional (3D) bioprinting allows the production of artificial 3D cellular microenvironments...
The introduction of 3D bioprinting to fabricate living constructs with tailored architecture has pro...
Organ transplantation would be the first option for those whose tissues/organs have been extremely i...
Abstract Background The worldwide demand for the organ replacement or tissue regeneration is increas...
Bioprinting is a process based on additive manufacturing from materials containing living cells. The...
3D bioprinting involves the combination of 3D printing technologies with cells, growth factors and b...
The biofabrication of three-dimensional scaffolds using 3D printers and cell-containing bioinks is v...
The synergy of hydrogel processing and 3D printing technologies has paved the way for the developmen...
Fabrication of functional tissue/organ constructs is becoming more feasible considering the recent d...
Recent developments in 3D printing technologies and design have been nothing short of spectacular. P...
Tissue regeneration using in-vitro scaffold becomes a vital mean to mimic the in-vivo counterpart du...
The field of tissue engineering has progressed tremendously over the past few decades in its ability...
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...
Three dimensional (3D) bioprinting technologies with appropriate bioinks are potentially able to fab...
Three-dimensional (3D) bioprinting allows the production of artificial 3D cellular microenvironments...
The introduction of 3D bioprinting to fabricate living constructs with tailored architecture has pro...
Organ transplantation would be the first option for those whose tissues/organs have been extremely i...
Abstract Background The worldwide demand for the organ replacement or tissue regeneration is increas...
Bioprinting is a process based on additive manufacturing from materials containing living cells. The...
3D bioprinting involves the combination of 3D printing technologies with cells, growth factors and b...
The biofabrication of three-dimensional scaffolds using 3D printers and cell-containing bioinks is v...
The synergy of hydrogel processing and 3D printing technologies has paved the way for the developmen...
Fabrication of functional tissue/organ constructs is becoming more feasible considering the recent d...
Recent developments in 3D printing technologies and design have been nothing short of spectacular. P...
Tissue regeneration using in-vitro scaffold becomes a vital mean to mimic the in-vivo counterpart du...
The field of tissue engineering has progressed tremendously over the past few decades in its ability...