RIT researchers solve multiple tissue engineering challenges by developing a novel hydrogel to host human cells and a device to 3D print bioinks safely.

Four patented Tissue Orb bioreactors within spaceflight hardware. This configuration will be launched into space and installed into the International Space Station during the first flight experiment ...

Microgravity offers a unique condition for tissue engineering, advancing stem cell-derived liver tissue development. But how can we transport these tissues to Earth without damaging them? Researchers ...

The field of regenerative medicine is entering an era of unprecedented convergence, bringing together intelligent biomaterials, biomedical hydrogels, and ...

An international research team has discovered a new type of skeletal tissue that offers great potential for advancing regenerative medicine and tissue engineering. An international research team led ...

Tissue regeneration is a rapidly evolving area of biomedical research, where nanotechnology is playing a pivotal role in deciphering and controlling the ...

Researchers have resolved a 50-year-old scientific mystery by identifying the molecular mechanism that allows tissues to ...

Bone implants often fail to fully integrate with surrounding tissue, limiting their effectiveness in regeneration. A natural but often overlooked cellular process could hold the key to better outcomes ...

Scientists at Duke-NUS Medical School have developed two powerful computational tools that could transform how researchers study the "conversations" between cells inside the body. The tools, called ...