Cambridge scientists develop new 'wraparound' sensor which offers new ways to treat spinal injuries

A new device created by scientists at the University of Cambridge could help treat spinal injuries
A new device created by scientists at the University of Cambridge could help treat spinal injuries. Credit: Tom Sulcer

A tiny, flexible electronic implant that wraps around the spinal cord could offer new ways to treat disability and paralysis-causing spinal injuries, a new study suggests.

It is hoped the new implants could lead to treatments for spinal injuries without the need for brain surgery, which would be far safer for patients.

The devices have been developed by a team of engineers, neuroscientists and surgeons from the University of Cambridge, who used them to record the nerve signals going back and forth between the brain and the spinal cord.

Dr Damiano Barone, from the Department of Clinical Neurosciences – who co-led the research, said: “If someone has a spinal injury, their brain is fine, but it’s the connection that’s been interrupted.

Dr Damiano Barone co-led the research Credit: Dr Barone/X

“As a surgeon, you want to go where the problem is, so adding brain surgery on top of spinal surgery just increases the risk to the patient.

“We can collect all the information we need from the spinal cord in a far less invasive way, so this would be a much safer approach for treating spinal injuries.”

Tests in live animals and human cadaver models showed the devices could also stimulate arm and leg movement and bypass complete spinal cord injuries where communication between the brain and spinal cord had been interrupted.

An image of the device wrapped around the spine Credit: Universioty of Cambridge/Science Advances

Most current approaches to treating spinal injuries are high risk and involve both piercing the spinal cord with electrodes and placing implants in the brain.

While new treatments are still at least several years away, the researchers say the devices could be useful in the near-term for monitoring spinal cord activity during surgery.

According to the researchers, better understanding of the spinal cord could lead to improved treatments for a range of conditions, including chronic pain, inflammation and high blood pressure.

They developed a way to gain information from the whole spine, by wrapping very thin, high-resolution implants around the spinal cord’s circumference.

This is the first time that safe 360-degree recording of the spinal cord has been possible.

The devices, which are just a few millionths of a metre thick, and require minimal power to function. Credit: University of Cambridge

The devices intercept the signals travelling on the nerve fibres of the spinal cord, allowing the signals to be recorded.

Because they are so thin, the implants can record the signals without causing any damage to the nerves, since they do not penetrate the spinal cord itself.

Prof George Malliaras, from the department of engineering – who co-led the research, said: “It was a difficult process, because we haven’t made spinal implants in this way before, and it wasn’t clear that we could safely and successfully place them around the spine.

“But because of recent advances in both engineering and neurosurgery, the planets have aligned and we’ve made major progress in this important area.”

Although treatment for spinal injuries is still years away, in the short term the devices could be used to learn more about this vital part of the human body.

The results are reported in the journal Science Advances.

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