3D-printed implant may repair spinal cord injuries

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 route to repair nerve damage. 

Details of the 3-D printed implant and how it performs in lab experiments have been published in the journal Advanced Science. 

Spinal cord injury is a life-altering condition that can lead to paralysis, loss of sensation and chronic pain. In Ireland, more than 2,300 individuals and families are living with spinal cord injury, but no treatment currently exists to effectively repair the damage. However, therapeutic electrical stimulation at the injury site has shown potential in encouraging nerve cells (neurons) to regrow. 

The study was led by researchers at RCSI’s TERG and the Research Ireland Centre Advanced Materials and Bioengineering Research (AMBER). The team used ultra-thin nanomaterials from Professor Valeria Nicolosi’s laboratory in the School of Chemistry and AMBER at Trinity College Dublin which are normally used for applications like battery design and integrated them into a soft gel-like structure using 3-D printing techniques. 

The resulting implant mimics the structure of the human spinal cord and features a fine mesh of tiny fibres that can conduct electricity to our cells. When tested in the lab, the implant was shown to effectively deliver electrical signals to neurons and stem cells, enhancing their ability to grow.   

Modifying the fibre layout within the implant was also found to further improve its effectiveness.  

The RCSI and AMBER researchers teamed up with the Irish Rugby Football Union Charitable Trust (IRFU-CT) on the project and brought together an advisory panel to oversee and guide the research. The group included seriously injured rugby players, clinicians, neuroscientists and researchers. 

The study was supported by the Irish Rugby Football Union Charitable Trust, AMBER the Research Ireland Centre for Advanced Materials and BioEngineering Research and an Irish Research Council Government of Ireland Postdoctoral Fellowship.