Researchers at RCSI University of Medicine and Health Sciences have created a 3D-printed implant designed to deliver electrical stimulation to damaged regions of the spinal cord, offering a promising ...

University of Minnesota researchers developed a 3D-printed scaffold that directs stem cells to grow into functioning nerve cells, successfully restoring movement in rats with severed spinal cords.

MINNEAPOLIS / ST. PAUL (08/25/2025) — For the first time, a research team at the University of Minnesota Twin Cities demonstrated a groundbreaking process that combines 3D printing, stem cell biology, ...

A research team at RCSI University of Medicine and Health Sciences has developed a 3-D printed implant to deliver electrical stimulation to injured areas of the spinal cord offering a potential new ...

The process uses 3D printing to form stem cells into scaffolds containing microscopic channels that guide the growth of new nerve cells along the site of the spinal cord injury, researchers reported ...

Recent advancements in biomedical engineering have achieved a remarkable breakthrough: rats with spinal cord injuries have regained movement thanks to 3D-printed scaffolds. These innovative scaffolds ...

For the first time, a research team at the University of Minnesota Twin Cities demonstrated a groundbreaking process that combines 3D printing, stem cell biology, and lab-grown tissues for spinal cord ...