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 ...

Northwestern University scientists have developed the most advanced organoid model for human spinal cord injury to date. In a new study, the research team used lab-grown human spinal cord ...

Neurites include axons, which are often severed during spinal cord injuries. When axons are cut, communication between ...

Organoids modeled on the structure of the human spinal cord have been shown to match the behavior of an injured spine. Now, a treatment that has worked well in mice has been applied to the organoids, ...

Spinal cord injury remains one of the most challenging neurological conditions to treat, largely because damage continues to worsen long after the initial trauma. Secondary injury processes—driven by ...

Organoids developed from human stem cells modeled spinal cord injuries, providing a powerful in vitro tool to evaluate ...

The new organoids were grown in the lab for up to 40 days, and they mimicked the central nervous system of an 11-week-old human embryo. When you purchase through links on our site, we may earn an ...

Evanston, Ill.-based Northwestern University scientists have created the most advanced human spinal cord injury organoid model to date, enabling researchers to test regenerative therapies in lab-grown ...

The first organized stem cell culture model that resembles all three sections of the embryonic brain and spinal cord, and produces a full model of the early stages of the human central nervous system, ...

Spinal cord injury triggers a cascade of oxidative stress and inflammation that severely limits the body’s ability to repair damaged neural tissue. A ...