Complex 3D structures of cells called organoids could be used to test treatments for spinal-cord damage that can lead to ...

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

Zebrafish have genetic characteristics that make it possible to rebuild neural networks after severe injuries.

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, ...

Scientists have taken a major step toward treating spinal cord injuries that cause paralysis. In lab dishes, researchers at Northwestern University grew tiny organoids of the human spinal cord. Then, ...

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 ...

So far this year, medtech companies and academic institutions are making key strides in spine biologics. From new product launches to research breakthroughs, here are the biggest developments to know: ...

Researchers uncover dynamic “dancing” molecules in spinal cord organoids, offering insights into neural development and ...

Researchers created lab-grown human spinal cord organoids to model different types of spinal cord injuries and test a ...

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

For the first time, researchers from Sagol Center for Regenerative Biotechnology at Tel Aviv University have engineered 3D human spinal cord tissues and implanted them in lab model with long-term ...