Volumetric 3D printing can create full objects in seconds, but wasted light has held it back. An EPFL team now redirects laser energy far more efficiently, producing larger, cleaner, cell-filled ...

A team of biomedical researchers led by Michael Mak, Ph.D., in the Renaissance School of Medicine at Stony Brook University, has developed a new method of bioprinting physiological materials. Called ...

Cartilage tissue engineering and regeneration encompasses a multidisciplinary suite of approaches aimed at restoring damaged or degenerated cartilage, a tissue with intrinsically low self-repair ...

An "out-of-this-world" project has the potential to transform the future of tissue engineering and liver transplantation through innovative research conducted aboard the International Space Station ...

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 ...

Tissue engineering is an interdisciplinary field that combines principles from engineering, biology, and materials science to develop biological substitutes that restore, maintain, or improve tissue ...

Unique new material has shown significant promise in the treatment of spinal cord injury. The new hybrid biomaterials, in the form of nanoparticles and building on existing practice in the tissue ...

Researchers from the Renaissance School of Medicine at Stony Brook University say they have developed a new method of bioprinting physiological materials. Called TRACE (Tunable Rapid Assembly of ...

Researchers have developed bioengineered lymphatic tissue that can replace missing lymph nodes, aiding in the treatment of secondary lymphedema. The rising incidence of cancer worldwide has led to an ...

Blood vessels keep us alive. They are the highways that transport oxygen-rich blood and nutrients to all corners of our body—feeding our tissue and organs—while simultaneously removing toxic waste ...

An "out-of-this-world" project has the potential to transform the future of tissue engineering and liver transplantation through innovative research conducted aboard the International Space Station ...