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

These printed organs would be created from the very cells of the body they will re-enter, matching the exact size, specifications and requirements of each individual patient. Basics of 3D ...

essentially—of a printed human organ or body part. The others could be filled with a gel containing human cells or proteins to promote their growth. Atala leans against a custom-built 3-D ...

“The futuristic goal is that we could take the cells from the patient who needs a transplant, reprogram them in the stem cell for the organ that is needed, and then print it through 3D ...

It is now possible to obtain three-dimensional, high-resolution images of enzyme activity in tissue samples or whole organs -- thanks to probe molecules that anchor fluorescent dyes within tissue as ...

D bioprinting holds great potential in the field of regenerative medicine to produce miniaturized tissues and organ ...

It is now possible to obtain three-dimensional, high-resolution images of enzyme activity in tissue samples or whole ...

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