Many research groups are testing “ink” made from silk proteins to print human tissues, implants and perhaps even organs. The process is a less costly alternative to conventional 3-D printing with ...

Conexeu to leverage WFIRM's advanced tissue-organ bioprinting infrastructure to evaluate the durability, integration, and ...

In a study published in Advanced Materials, researchers combined volumetric bioprinting with melt electrowriting successfully for the first time. This approach combines the speed and cell-friendliness ...

Volumetric 3D printing can create full objects in seconds, but wasted light has held it back. An EPFL team now redirects ...

A year and a half ago, Dr. Albert Chi, a surgeon at the Johns Hopkins Hospital and an expert in prosthetic devices, was talking to a group of parents whose children suffered from congenital limb loss.

In standard tissue engineering, cells are seeded onto solid, biodegradable scaffolds, and are then induced to grow. However, that conventional approach is limited in its ability to replicate the ...

Engineers from UNSW Sydney have developed a miniature and flexible soft robotic arm that could be used to 3D-print biomaterial directly onto organs inside a person's body. 3D-bioprinting is a process ...

Z of laser-assisted bioprinting of 3D multicellular cartilage spheroids, detailing fabrication methods, and cell viability.

The artificial creation of human skin, tissue and internal organs may sound like something from the distant future, but much of it is happening right now in research facilities around the globe and ...

Fixing traumatic injuries to the skin and bones of the face and skull is difficult because of the many layers of different types of tissues involved, but now, researchers have repaired such defects in ...