Organoids have transformed biomedical research by giving scientists miniature versions of human organs to study in the lab.

A new human spinal cord organoid model replicates key injury responses, such as inflammation, cell loss, and scar formation.

Discover the groundbreaking research on organoid models for spinal cord injury, promising new therapies for paralysis recovery.

Can "dancing molecules" repair spinal cord injuries? A new lab model using human organoids shows promising results, reducing scars and regrowing nerve fibers.

Scientists at the National Institutes of Health (NIH) and the Indiana University School of Medicine report that increasing energy supply within injured spinal cord nerves in mice could help promote ...

When the spinal cord is injured, the damaged nerve fibers--called axons--are normally incapable of regrowth, leading to permanent loss of function. Considerable research has been done to find ways to ...

Scientists created a model of the human pain pathway in a dish by connecting four separate brain organoids. The feat should help them understand sensory disorders like those affecting pain perception.

Timed release of therapeutic molecules from a soft nanofiber-hydrogel implant supports nerve regrowth and circuit repair after spinal injury, restoring movement and bladder control in preclinical ...

Spinal cord injury remains one of the most challenging neurological conditions to treat, largely because damage continues to ...