Giving hope to those with spinal cord injuries
Researchers from NeuRA, the University of Sydney, and HammondCare have found surviving sensory spinal nerve connections in 50 per cent of people living with complete thoracic spinal cord injuries.
The study, which is part of a decade-long collaboration between the researchers, used cutting-edge functional MRI (fMRI) technology to record neural response to touch. It was NeuRA’s Dr Sylvia Gustin who analysed the fMRI images to identify the moment the patient’s brain registered the touch.
“Seeing the brain light up to touch shows that despite the complete injury to the thoracic spine, somatosensory pathways have been preserved,” explains Dr Gustin.
“It’s fascinating that although the patients did not ‘feel’ the big toe stimulation in the experiment, we were able to detect a significant signal in response to the touch in the brain’s primary and secondary somatosensory cortices, the thalamus, and the cerebellum.”
For those living with a complete spinal cord injury this means, despite previously believing the communication to the brain had been severed in the injury, messages are still being received.
Dr Gustin describes this new category of spinal cord injury as ‘discomplete’.
“The current classification system is flawed. It only contains two types of spinal cord injury – complete and incomplete,” says Dr Gustin.
“It is important we acknowledge there is a third category – the ‘discomplete’ injury, only then we can provide better treatment regimens for the many sufferers of a complete spinal cord injury.”
For those newly classified as ‘discomplete’, this discovery opens up new opportunities to identify those people living with a spinal cord injury that are more likely to benefit from treatments aimed at improving sensation and movement. Because of this study, research participant, James Stanley, now knows he belongs to a new category.
“It is exciting to know that there is a connection there, that my toe is trying to say hello to my brain,” says James. “If medical professionals can work to identify people like me with a ‘discomplete’ injury earlier, perhaps they can find new treatments and rehabilitation techniques.
“The thought that one day I might be able to feel the sand between my toes again, or the waves wash over my feet gives me hope. It’s something Dr Gustin’s discovery has made possible.”
Read more on this research in the Human Brain Mapping article.
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