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 …

Biofabrication aims to fabricate biologically functional products through bioprinting or
bioassembly (Groll et al 2016 Biofabrication 8 013001). In biofabrication processes, cells are …

Building tissues from scratch to explore entirely new cell configurations could revolutionize
fundamental understanding in biology. Bioprinting is an emerging technology to do this …

Cellular models are needed to study human development and disease in vitro, and to
screen drugs for toxicity and efficacy. Current approaches are limited in the engineering of …

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

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 …

The biofabrication of three-dimensional (3D) tissues that recapitulate organ-specific
architecture and function would benefit from temporal and spatial control of cell-cell …

Abstract Three-dimensional (3D) bioprinting strategies use computer-aided processes to
enable automated simultaneous spatial patterning of cells and/or biomaterials. These …

Three-dimensional (3D) bioprinting is an appealing approach for building tissues; however,
bioprinting of mini-tissue blocks (ie, spheroids) with precise control on their positioning in 3D …