Together, they have developed a 3D in vitro model that allows ... journal Nature Communications. This new bone model is based on a porous matrix, or structure, made of a synthetic polymer.

We design, engineer, and synthesise biomaterials for 3-dimensional (3D) organoid culture and tissue ... the properties of the resulting organoid models. So far, we are focusing on organoids for human ...

The field of 3D bioprinting technology is witnessing rapid advancements, offering new possibilities in regenerative medicine, ...

This makes the printed structure ... models are currently underway to validate this approach. The Center for Translational Bone, Joint and Soft Tissue Research, in Dresden, is working on 3D ...

Bone comprises both a non-mineralized organic part (mainly collagen) and a mineralized inorganic part (mainly hydroxyapatite). In this structure, 3D porosity is needed to assure nutrient and ...

3D printing technology has come a long way in the past few years—and one of its most promising applications is in medicine. Not only have we seen it be used to create artificial bones and ...

Zurich and US-based startup Inkbit have figured out a way to 3D print the world’s first robotic hand with an internal structure composed of human-like bones, ligaments, and tendons. What makes ...

today unveils at AACR 2025 its cutting-edge 3D bone marrow niche (BMN) in vitro models to advance hematological cancer research. Providing both the physical environment (cell-cell interactions ...