From lab benches to real-world impact, bioengineering is transforming healthcare through innovative research, student-led projects, and groundbreaking tissue engineering methods. Universities and ...

Different surface topographies and materials provide interesting ways to study cell behavior and potentially provide novel solutions for treating joint defects. Tissue engineering methods that ...

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 ...

Penn State researchers have developed a technique they call “cellular snowballing,” in which lab-grown cells mixed with microgel particles self-assemble into larger tissue constructs without external ...

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 ...

Cutting edge: Scientists studying human tissue self-assembly will try to grow human liver tissue in space next year. The microgravity of the ISS provides a perfect environment to allow cells to ...

Inspiration for medical innovation can come from anywhere. Case in point, University at Buffalo researchers developed a new method — inspired by children's pop-up books — for creating 3D artificial ...

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 ...

What are Tissue Engineering Scaffolds? Tissue engineering scaffolds are three-dimensional structures designed to support cell growth, migration, and differentiation for the regeneration of damaged or ...

Medical scientists now have "clear" evidence that the damaged cartilage tissue in osteoarthritis and other painful joint disorders can be encouraged to regrow and regenerate, and are developing tissue ...