Abstract 3D bioprinting techniques have emerged as a flexible tool in tissue engineering
and regenerative medicine to fabricate or pattern functional 3D bio-structures with precise …

Photopolymerization refers to a type of polymerization process in which light is utilized as
excitation source to initiate polymerization of monomers and oligomers. Despite great …

Handheld bioprinting has recently attracted considerable attention as a technology to deliver
biomaterials and/or cells to injury sites by using freeform, user-instructed deposition …

Scaffold‐based tissue engineering provides an efficient approach for repairing uterine tissue
defects and restoring fertility. In the current study, a novel trilayer tissue engineering scaffold …

Bioprinting-associated shear stress and hydrostatic pressure can negatively affect the
functionality of dispensed cells. We hypothesized that these mechanical stimuli can …

Three-dimensional (3D) printing, an additive manufacturing technique, is increasingly used
in the field of tissue engineering. The ability to create complex structures with high precision …

Organ regeneration and manufacturing are promising new research directions in the life
sciences. Stem cells and their niches, which exist in most adult organs, play a central role in …

With the increasing prevalence of bone tissue diseases, three-dimensional (3D) bioprinting
applied to bone tissue engineering for treatment has received a lot of interests in recent …

Regenerative medicine involves the restoration of tissue or organ function via the
regeneration of these structures. As promising regenerative medicine approaches, either …

Arterial stenosis or blockage is the leading cause of cardiovascular disease, and the
common solution is to substitute the arteries by autologous veins or bypass the blood …