Trauma-and disease-related skeletal defects and illnesses are plaguing millions of people
especially in an ageing globe. Recently, the convergence of additive manufacturing (AM) …

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

The multidisciplinary research field of bioprinting combines additive manufacturing, biology
and material sciences to create bioconstructs with three-dimensional architectures …

Abstract Three-dimensional (3D) bioprinting enables a controlled deposition of cells,
biomaterials, and biological compounds (ie, bioinks) to build complex 3D biological models …

The field of Tissue engineering and regenerative medicine that work toward creating
functional tissue-constructs mimicking native tissue for repair and/or replacement of …

One of the exciting future directions in the 3D printing field is the development of innovative
personalized smart constructions for bio-applications, including drug delivery, namely high …

Bioprinting technologies have been advancing at the convergence of automation,
digitalization, and new tissue engineering (TE) approaches. In situ bioprinting may be …

The development of bioinks for bioprinting of cell‐laden constructs remains a challenge for
tissue engineering, despite vigorous investigation. Hydrogels to be used as bioinks must …

Cardiovascular disease is still one of the leading causes of death in the world, and heart
transplantation is the current major treatment for end-stage cardiovascular diseases …

Reconstruction of bony defects is challenging when conventional grafting methods are used
because of their intrinsic limitations (biological cost and/or biological properties). Bone …