innovation for industry
Press release | News | Health ＆ life sciences | Technologies
Neuroscientists and neurosurgeons from EPFL/CHUV/UNIL and CEA/CHUGA/UGA report in the journal Nature that they have re-established the communication between the brain and spinal cord with a wireless digital bridge, allowing a paralyzed person to walk again naturally.
Published in the journal Nature, "Walking naturally after spinal cord injury using a brain-spine interface" presents the situation of Gert-Jan, 40 years old, who suffered a spinal cord injury following a bicycle accident that left him paralyzed. The digital bridge enabled him to regain natural control over the movement of his paralyzed legs, allowing him to stand, walk, and even climb stairs. Gert-Jan explains that he has recovered the pleasure of being able to share a beer standing at a bar with friends : “This simple pleasure represents a significant change in my life”.
To establish this digital bridge, two types of electronic implants are needed. Neurosurgeon Jocelyne Bloch, who is a professor at CHUV, UNIL and EPFL, explains: "We have implanted WIMAGINE® devices above the region of the brain that is responsible for controlling leg movements. These devices developed by the CEA allows to decode the electrical signals generated by the brain when we think about walking. We also positioned a neurostimulator connected to an electrode array over the region of the spinal cord that controls leg movement.Guillaume Charvet, head of the BCI program at CEA, adds: "Thanks to algorithms based on adaptive artificial intelligence methods, movement intentions are decoded in real time from brain recordings.”
These intentions are then converted into sequences of electrical stimulation of the spinal cord, which in turn activate leg muscles to achieve the desired movement. This digital bridge operates wirelessly, allowing the patient to move around independently.
Rehabilitation supported by the digital bridge enabled Gert-Jan to recover neurological functions that he had lost since his accident. Researchers were able to quantify remarkable improvements in his sensory perceptions and motor skills, even when the digital bridge was switched off. This digital repair of the spinal cord suggests that new nerve connections have developed.At this stage, the digital bridge has only been tested in one person. Jocelyne Bloch and Grégoire Courtine explain that, in the future, a comparable strategy could be used to restore arm and hand functions. They add that the digital bridge could also be applied to other clinical indications, such as paralysis due to stroke. The company ONWARD Medical, along with CEA and EPFL has received support from the European Commission trough its European Innovation Council (EIC) to develop a commercial version of the digital bridge, with the goal of making the technology available worldwide.
CEA is a French government-funded technological research organisation in four main areas: low-carbon energies, defense and security, information technologies and health technologies. A prominent player in the European Research Area, it is involved in setting up collaborative projects with many partners around the world.