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

A University of Minnesota Twin Cities research team has combined 3D printing, stem cell biology, and lab-grown tissues to address spinal cord injury recovery. The breakthrough method holds the ...

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.

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 ...

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 ...

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 ...

Researchers have built a realistic human mini spinal cord in the lab and used it to simulate traumatic injury. The model reproduced key damage seen in real spinal cord injuries, including inflammation ...

After a spinal cord injury, nearby cells quickly rush to action, forming protective scar tissue around the damaged area to stabilize and protect it. But over time, too much scarring can prevent nerves ...

Tiny living replicas of the human spinal cord that can be injured and healed in the laboratory offer a fresh way to investigate therapies for paralysis 1 — minimizing animal testing. Promising ...

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, ...