Extrusion-based 3D bioprinting is being increasingly adopted as a versatile biofabrication
method for making biomimetic constructs in tissue engineering. However, the lack of ideal …

The biofabrication of complex human tissues to recapitulate organ-specific architecture and
function requires a combination of engineering control and intrinsic self-assembly. Organoid …

ABSTRACT Advanced three-dimensional (3D) bioprinting technology enables the precise
production of complex vascular structures and biomimetic models, driving advancements in …

Bioprinting within support media has emerged as the superior alternative to conventional
extrusion printing. Not only because it allows for more freedom over the shapes that can be …

Extrusion-based bioprinting is an established method in biofabrication. Suitable bioinks
have fundamentally different compositions and characteristics, which should be examined …

Biofabrication represents a promising technique for creating tissues for regeneration or as
models for drug testing. Collagen-based hydrogels are widely used as suitable matrix owing …

Physical attributes of implantable scaffold materials such as pore architecture and pore size
modulate regenerative outcomes by influencing vascularization and integration with host …

Extrusion-based embedded 3D bioprinting, where bioinks and biomaterials are extruded
within a support bath, has greatly expanded the achievable tissue architectures and …

The scarcity of human donor corneal graft tissue worldwide available for corneal
transplantation necessitates the development of alternative therapeutic strategies for treating …

Hydrogels composed of collagen, the most abundant protein in the human body, are widely
used as scaffolds for tissue engineering due to their ability to support cellular activity …