New advanced manufacturing technologies under the alias of additive biomanufacturing
allow the design and fabrication of a range of products from pre-operative models, cutting …

The field of tissue engineering has progressed tremendously over the past few decades in
its ability to fabricate functional tissue substitutes for regenerative medicine and …

Three-dimensional (3D) bioprinting is a family of rapid prototyping technologies, which
assemble biomaterials, including cells and bioactive agents, under the control of a computer …

Humans and animals lose tissues and organs due to congenital defects, trauma, and
diseases. The human body has a low regenerative potential as opposed to the urodele …

Abstract Four-dimensional (4 D) printing is a novel emerging technology, which can be
defined as the ability of 3 D printed materials to change their form and functions. The term …

Advances in scaffold design and fabrication technology have brought the tissue engineering
field stepping into a new era. Conventional techniques used to develop scaffolds inherit …

Abstract 3D bioprinting or additive manufacturing is an emerging innovative technology
revolutionizing the field of biomedical applications by combining engineering …

Different fabrication methods from traditional chemical engineering methods to advanced
additive manufacturing (AM) are used for fabrication of tissue engineering (TE) scaffolds …

3D printing technology has emerged as a key driver behind an ongoing paradigm shift in the
production process of various industrial domains. The integration of 3D printing into tissue …

Computer-aided tissue engineering enables the fabrication of multifunctional scaffolds that
meet the structural, mechanical, and nutritional requirements based on optimized models. In …