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 …

Over the last decades, the fabrication of 3D tissues has become commonplace in tissue
engineering and regenerative medicine. However, conventional 3D biofabrication …

In tissue engineering, an unresolved challenge is how to build complex 3D scaffolds in order
to recreate the structure and function of human tissues and organs. Additive manufacturing …

Abstract Three-dimensional (3D) printing is a fast-developing digital technology with
colossal market scope in food and nutrition technology, providing a platform for establishing …

Next generation engineered tissue constructs with complex and ordered architectures aim to
better mimic the native tissue structures, largely due to advances in 3D bioprinting …

With a limited supply of organ donors and available organs for transplantation, the aim of
tissue engineering with three-dimensional (3D) bioprinting technology is to construct fully …

Polyethylene has many advantages as a biomaterial for medical implants and has been
extensively applied to the fabrication of porous high-density polyethylene implant for facial …

Despite the great advances that the tissue engineering field has experienced over the last
two decades, the amount of in vitro engineered tissues that have reached a stage of clinical …

3-dimensional (3D) in vitro models were developed in order to mimic the complexity of real
organ/tissue in a dish. They offer new possibilities to model biological processes in more …

Systematic analysis of the extrusion process in 3D bioprinting is mandatory for process
optimization concerning production speed, shape fidelity of the 3D construct and cell …