Learn more about the cutting-edge technology that enables 3D printing inside living cells and what that means for the ...

In sports medicine and physical rehabilitation, the continuous improvement and need for effective bone and cartilage regeneration technologies are becoming more critical due to increased injuries, ...

In a scientific first, researchers at theUniversity of Oxford have 3D printed stem cells that can mimic the architecture of the cerebral cortex, the human brain’s outer layer. The technique could ...

Ear we go! Scientists 3D print the most true-to-life human ear to date. Researchers in Switzerland have 3D-printed the most ...

Growing cartilage tissue in the lab could help patiens with injuries, but it is very hard to make the tissue grow in exactly the right shape. A new approach could solve this problem: Tiny spherical ...

Engineers have turned one of nature’s most reviled body parts into a precision tool, using the hollow feeding tubes of dead mosquitoes to print structures smaller than a human blood cell. The approach ...

DTU researchers rethink fuel cells with 3D printing and ceramic, coral-inspired design, unlocking new potential for P2X and power generation in aerospace and beyond. A team of researchers at DTU may ...

In order to 3D-print really intricate items, you need a really fine print nozzle. Scientists have discovered that instead of going to the time and trouble of building one, you can simply repurpose a ...

Researchers have 3D printed devices made of insulin-producing cells. These devices could enable a long-term treatment for type 1 diabetes that would let people produce their own insulin – without ...

In brief: Scientists at Stanford University are experimenting with advanced 3D printing techniques to grow human organs in the lab. The idea isn't new, but their technique is. Up to this point, most ...