Bioprinting technology is a strong tool in producing living functional tissues and organs from
cells, biomaterial-based bioinks, and growth factors in computer-controlled platform. The aim …

Bioprinting is a promising technology to fabricate design-specific tissue constructs due to its
ability to create complex, heterocellular structures with anatomical precision. Bioprinting …

Bioprinting as an enabling technology for tissue engineering possesses the promises to
fabricate highly mimicked tissue or organs with digital control. As one of the biofabrication …

Bioprinting of three-dimensional constructs mimicking natural-like extracellular matrix has
revolutionized biomedical technology. Bioprinting technology circumvents various …

Biofabrication allows the formation of 3D scaffolds through a precise spatial control. This is
of foremost importance when aiming to mimic heterogeneous and anisotropic architecture …

Despite the numerous lives that have been saved since the first successful procedure in
1954, organ transplant has several shortcomings which prevent it from becoming a more …

Bioprinting is an emerging technology for the fabrication of patient‐specific, anatomically
complex tissues and organs. A novel bioink for printing cartilage grafts is developed based …

Bioprinting technology has emerged as a powerful tool for building tissue and organ
structures for drug discovery and regenerative medicine applications. In general, bioprinting …

Bioprinting is a relatively new yet evolving technique predominantly used in regenerative
medicine and tissue engineering. 3D bioprinting techniques combine the advantages of …

Vascularization plays a crucial role in transporting and exchanging nutrients and oxygen
between implanted grafts with the host tissue. In the biofabrication of the implanted grafts …