Engineers at the University of Pittsburgh develop 3D-printed collagen scaffolds, enabling organic tissue models that mimic ...

researchers developed a novel hollow fiber bioreactor (HFB) to generate chicken skeletal muscle tissues, exemplifying large-scale tissue engineering. The bioreactor enables centimeter-scale ...

Cultivated meat is an emerging field of food technology, however, to make it viable, it is important to learn how to optimize ...

University of Pittsburgh engineers have developed a 3D bioprinting method that creates collagen-based scaffolds, allowing ...

Carnegie Mellon researchers have used FRESH 3D bioprinting to create the first collagen-based microphysiologic systems, ...

and cell-laden bioinks and integration into a custom bioreactor platform, we were able to create a centimeter-scale pancreatic-like tissue construct capable of producing glucose-stimulated insulin ...

Scientists can build microfluidic systems in a Petri dish out of collagen, cells, and other proteins with structural resolution and fidelity.

The field of corneal tissue engineering has made many strides in ... Another recent study discusses material selection for a bioreactor designed to apply appropriate mechanical signals to ...

Shiwarski's research leverages additive manufacturing and tissue engineering to create functional replacement ... the team engineered a custom perfusion bioreactor system, VAPOR. "This platform is ...

Further, when combined with multi-material 3D bioprinting of ECM proteins, growth factors, and cell-laden bioinks and integration into a custom bioreactor platform ... perfusable scaffolds for ...