Walking naturally after spinal cord injury using a brain–spine interface

A spinal cord injury interrupts the communication between the brain and the region of the spinal cord that produces walking, leading to paralysis(1,2). Here, we restored this communication with a digital bridge between the brain and spinal cord that enabled an individual with chronic tetraplegia to...

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Autores principales: Lorach, Henri, Galvez, Andrea, Spagnolo, Valeria, Martel, Felix, Karakas, Serpil, Intering, Nadine, Vat, Molywan, Faivre, Olivier, Harte, Cathal, Komi, Salif, Ravier, Jimmy, Collin, Thibault, Coquoz, Laure, Sakr, Icare, Baaklini, Edeny, Hernandez-Charpak, Sergio Daniel, Dumont, Gregory, Buschman, Rik, Buse, Nicholas, Denison, Tim, van Nes, Ilse, Asboth, Leonie, Watrin, Anne, Struber, Lucas, Sauter-Starace, Fabien, Langar, Lilia, Auboiroux, Vincent, Carda, Stefano, Chabardes, Stephan, Aksenova, Tetiana, Demesmaeker, Robin, Charvet, Guillaume, Bloch, Jocelyne, Courtine, Grégoire
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10232367/
https://www.ncbi.nlm.nih.gov/pubmed/37225984
http://dx.doi.org/10.1038/s41586-023-06094-5
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author Lorach, Henri
Galvez, Andrea
Spagnolo, Valeria
Martel, Felix
Karakas, Serpil
Intering, Nadine
Vat, Molywan
Faivre, Olivier
Harte, Cathal
Komi, Salif
Ravier, Jimmy
Collin, Thibault
Coquoz, Laure
Sakr, Icare
Baaklini, Edeny
Hernandez-Charpak, Sergio Daniel
Dumont, Gregory
Buschman, Rik
Buse, Nicholas
Denison, Tim
van Nes, Ilse
Asboth, Leonie
Watrin, Anne
Struber, Lucas
Sauter-Starace, Fabien
Langar, Lilia
Auboiroux, Vincent
Carda, Stefano
Chabardes, Stephan
Aksenova, Tetiana
Demesmaeker, Robin
Charvet, Guillaume
Bloch, Jocelyne
Courtine, Grégoire
author_facet Lorach, Henri
Galvez, Andrea
Spagnolo, Valeria
Martel, Felix
Karakas, Serpil
Intering, Nadine
Vat, Molywan
Faivre, Olivier
Harte, Cathal
Komi, Salif
Ravier, Jimmy
Collin, Thibault
Coquoz, Laure
Sakr, Icare
Baaklini, Edeny
Hernandez-Charpak, Sergio Daniel
Dumont, Gregory
Buschman, Rik
Buse, Nicholas
Denison, Tim
van Nes, Ilse
Asboth, Leonie
Watrin, Anne
Struber, Lucas
Sauter-Starace, Fabien
Langar, Lilia
Auboiroux, Vincent
Carda, Stefano
Chabardes, Stephan
Aksenova, Tetiana
Demesmaeker, Robin
Charvet, Guillaume
Bloch, Jocelyne
Courtine, Grégoire
author_sort Lorach, Henri
collection PubMed
description A spinal cord injury interrupts the communication between the brain and the region of the spinal cord that produces walking, leading to paralysis(1,2). Here, we restored this communication with a digital bridge between the brain and spinal cord that enabled an individual with chronic tetraplegia to stand and walk naturally in community settings. This brain–spine interface (BSI) consists of fully implanted recording and stimulation systems that establish a direct link between cortical signals(3) and the analogue modulation of epidural electrical stimulation targeting the spinal cord regions involved in the production of walking(4–6). A highly reliable BSI is calibrated within a few minutes. This reliability has remained stable over one year, including during independent use at home. The participant reports that the BSI enables natural control over the movements of his legs to stand, walk, climb stairs and even traverse complex terrains. Moreover, neurorehabilitation supported by the BSI improved neurological recovery. The participant regained the ability to walk with crutches overground even when the BSI was switched off. This digital bridge establishes a framework to restore natural control of movement after paralysis.
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spelling pubmed-102323672023-06-02 Walking naturally after spinal cord injury using a brain–spine interface Lorach, Henri Galvez, Andrea Spagnolo, Valeria Martel, Felix Karakas, Serpil Intering, Nadine Vat, Molywan Faivre, Olivier Harte, Cathal Komi, Salif Ravier, Jimmy Collin, Thibault Coquoz, Laure Sakr, Icare Baaklini, Edeny Hernandez-Charpak, Sergio Daniel Dumont, Gregory Buschman, Rik Buse, Nicholas Denison, Tim van Nes, Ilse Asboth, Leonie Watrin, Anne Struber, Lucas Sauter-Starace, Fabien Langar, Lilia Auboiroux, Vincent Carda, Stefano Chabardes, Stephan Aksenova, Tetiana Demesmaeker, Robin Charvet, Guillaume Bloch, Jocelyne Courtine, Grégoire Nature Article A spinal cord injury interrupts the communication between the brain and the region of the spinal cord that produces walking, leading to paralysis(1,2). Here, we restored this communication with a digital bridge between the brain and spinal cord that enabled an individual with chronic tetraplegia to stand and walk naturally in community settings. This brain–spine interface (BSI) consists of fully implanted recording and stimulation systems that establish a direct link between cortical signals(3) and the analogue modulation of epidural electrical stimulation targeting the spinal cord regions involved in the production of walking(4–6). A highly reliable BSI is calibrated within a few minutes. This reliability has remained stable over one year, including during independent use at home. The participant reports that the BSI enables natural control over the movements of his legs to stand, walk, climb stairs and even traverse complex terrains. Moreover, neurorehabilitation supported by the BSI improved neurological recovery. The participant regained the ability to walk with crutches overground even when the BSI was switched off. This digital bridge establishes a framework to restore natural control of movement after paralysis. Nature Publishing Group UK 2023-05-24 2023 /pmc/articles/PMC10232367/ /pubmed/37225984 http://dx.doi.org/10.1038/s41586-023-06094-5 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Lorach, Henri
Galvez, Andrea
Spagnolo, Valeria
Martel, Felix
Karakas, Serpil
Intering, Nadine
Vat, Molywan
Faivre, Olivier
Harte, Cathal
Komi, Salif
Ravier, Jimmy
Collin, Thibault
Coquoz, Laure
Sakr, Icare
Baaklini, Edeny
Hernandez-Charpak, Sergio Daniel
Dumont, Gregory
Buschman, Rik
Buse, Nicholas
Denison, Tim
van Nes, Ilse
Asboth, Leonie
Watrin, Anne
Struber, Lucas
Sauter-Starace, Fabien
Langar, Lilia
Auboiroux, Vincent
Carda, Stefano
Chabardes, Stephan
Aksenova, Tetiana
Demesmaeker, Robin
Charvet, Guillaume
Bloch, Jocelyne
Courtine, Grégoire
Walking naturally after spinal cord injury using a brain–spine interface
title Walking naturally after spinal cord injury using a brain–spine interface
title_full Walking naturally after spinal cord injury using a brain–spine interface
title_fullStr Walking naturally after spinal cord injury using a brain–spine interface
title_full_unstemmed Walking naturally after spinal cord injury using a brain–spine interface
title_short Walking naturally after spinal cord injury using a brain–spine interface
title_sort walking naturally after spinal cord injury using a brain–spine interface
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10232367/
https://www.ncbi.nlm.nih.gov/pubmed/37225984
http://dx.doi.org/10.1038/s41586-023-06094-5
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