A 3D analysis comparing the way fabric falls on a human body versus a low-relief sculpture shows that the Shroud of Turin was ...

A team of biomedical engineers in Australia have developed a small flexible robot that can be used to 3D print biomaterials directly inside the human body, in the hopes of streamlining future ...

4D Atlasing of Human Organs Presented by Sarah Teichmann, PhD The 37 trillion cells of the human body exhibit a remarkable array of specialized functions and must cooperate and collaborate in time and ...

3D printing skin, bone, and even working organs could change transplant medicine and medical research — but how, exactly, does one “print” a heart or liver?

Morares says the scenario of fabric contouring a low-relief sculpture shows greater similarity to the observed contours on the shroud while the projection of a 3D human body results in a ...

In a simulation, a bas-relief pressed into digital fabric produced an imprint that resembled the Shroud of Turin more closely than the imprint of a fully 3D human body.

A team of engineers in Sydney, Australia has developed a tiny, flexible robotic arm that is designed to 3D-print inside the body.