Bioprinting, within the emerging field of biofabrication, aims at the fabrication of functional
biomimetic constructs. Different 3D bioprinting techniques have been adapted to bioprint cell …

Biofabricated tissues have found numerous applications in tissue engineering and
regenerative medicine in addition to the promotion of disease modeling and drug …

Biomanufacturing of tissues/organs in vitro is our big dream, driven by two needs: organ
transplantation and accurate tissue models. Over the last decades, 3D bioprinting has been …

Multi‐cellular spheroids are formed as a 3D structure with dense cell–cell/cell–extracellular
matrix interactions, and thus, have been widely utilized as implantable therapeutics and …

Cell therapies offer a tailorable, personalized treatment for use in tissue engineering to
address defects arising from trauma, inefficient wound repair, or congenital malformation …

Organoid technology bridges the gap between conventional two-dimensional cell line
culture and in vivo models. The near-physiological technology can virtually recapitulates …

Advances in biomaterial synthesis and fabrication, stem cell biology, bioimaging,
microsurgery procedures, and microscale technologies have made minimally invasive …

The liver, the largest gland in the human body, plays a key role in metabolism, bile
production, detoxification, and water and electrolyte regulation. The toxins or drugs that the …

A major challenge in cardiac tissue engineering is the host's immune response to artificial
materials. To overcome this problem, we established a scaffold-free system for assembling …

Organ and tissue shortage are known as a crucially important public health problem as
unfortunately a small percentage of patients receive transplants. In the context of emerging …