Researchers at the University of Minnesota have developed lab-grown spinal cord scaffolds using 3D printing and stem cells.

Swedish researchers have developed two types of 3D bioprinting technology to artificially generate skin containing blood vessels. It could be a breakthrough in the quest to regenerate damaged skin.

For families of children with severe epilepsy, controlling seizures is often just the beginning of their challenges. Even in ...

Scientists grew organoids, or tiny models of the brain ... increase in an important type of nerve cell, new research suggests. Estimates suggest that these key cells, known as inhibitory interneurons, ...

Researchers at EPFL and elsewhere are working on new solutions to make life more comfortable for the millions of afflicted ...

A vitamin-sized capsule that beams light inside the gut could change how scientists study digestion and the gut-brain connection.

Why do some neurons fall silent in Alzheimer's disease? How can particle simulations be accelerated? How much CO₂ can trees ...

Scientists have uncovered a hidden weakness in one of the deadliest childhood cancers. The tumors, which spread quickly and are notoriously hard to treat, rely on a sugar-processing pathway to survive ...

Researchers at the University of Shanghai for Science and Technology (USST) have unveiled an ultra-compact photonic AI chip, smaller than a grain of sand, capable of processing data at unprecedented ...

UBC Okanagan researchers developed a 3D bioprinted lung model that could have important applications in drug testing and ...

D-printed organoid scaffolds helped rats regain movement after complete spinal cord injury, a breakthrough led by University of Minnesota.