Abstract A spinal cord injury usually spares some components of the locomotor circuitry. Deep brain stimulation (DBS) of the midbrain locomotor region and epidural electrical stimulation of the lumbar spinal cord (EES) are being used to tap into this spared circuitry to enable locomotion in humans with spinal cord injury. While appealing, the potential synergy between DBS and EES remains unknown. Here, we report the synergistic facilitation of locomotion when DBS is combined with EES in a rat model of severe contusion spinal cord injury leading to leg paralysis. However, this synergy requires high amplitudes of DBS, which triggers forced locomotion associated with stress responses. To suppress these undesired responses, we link DBS to the intention to walk, decoded from cortical activity using a robust, rapidly calibrated unsupervised learning algorithm. This contingency amplifies the supraspinal descending command while empowering the rats into volitional walking. However, the resulting improvements may not outweigh the complex technological framework necessary to establish viable therapeutic conditions.
Publication scientifique
Multi-pronged neuromodulation intervention engages the residual motor circuitry to facilitate walking in a rat model of spinal cord injury
Autres publications de la plateforme
Hypothalamic deep brain stimulation augments walking after spinal cord injury
Cho, Newton; Squair, Jordan W.; Aureli, Viviana; James, Nicholas D.; Bole-Feysot, Léa; Dewany, Inssia; Hankov, Nicolas; Baud, Laetitia; Leonhartsberger, Anna; Sveistyte, Kristina; Skinnider, Michael A.; Gautier, Matthieu; Laskaratos, Achilleas; Galan, Katia; Goubran, Maged; Ravier, Jimmy; Merlos, Frederic; Batti, Laura; Pages, Stéphane; Berard, Nadia; Intering, Nadine; Varescon, Camille; Watrin, Anne; Duguet, Léa; Carda, Stefano; Bartholdi, Kay A.; Hutson, Thomas H.; Kathe, Claudia; Hodara, Michael; Anderson, Mark A.; Draganski, Bogdan; Demesmaeker, Robin; Asboth, Leonie; Barraud, Quentin; Bloch, Jocelyne; Courtine, Grégoire
Nature Medicine
A neuronal architecture underlying autonomic dysreflexia
Soriano, Jan Elaine; Hudelle, Remi; Mahe, Lois; Gautier, Matthieu; Teo, Alan Yue Yang; Skinnider, Michael A.; Laskaratos, Achilleas; Ceto, Steven; Kathe, Claudia; Hutson, Thomas; Charbonneau, Rebecca; Girgis, Fady; Casha, Steve; Rimok, Julien; Tso, Marcus; Larkin-Kaiser, Kelly; Hankov, Nicolas; Gandhi, Aasta; Amir, Suje; Kang, Xiaoyang; Vyza, Yashwanth; Martin-Moraud, Eduardo; Lacour, Stephanie; Demesmaeker, Robin; Asboth, Leonie; Barraud, Quentin; Anderson, Mark A.; Bloch, Jocelyne; Squair, Jordan W.; Phillips, Aaron A.; Courtine, Gregoire
Nature
Dual lineage origins contribute to neocortical astrocyte diversity
Zhou J, Vitali I, Roig-Puiggros S, Javed A, Cantando I, Puglisi M, Bezzi P, Jabaudon D, Mayer C, Bocchi R.
Urolithin A provides cardioprotection and mitochondrial quality enhancement preclinically and improves...
Liu S, Faitg J, Tissot C, Konstantopoulos D, Laws R, Bourdier G, Andreux PA, Davey T, Gallart-Ayala H, Ivanisevic J, Singh A, Rinsch C, Marcinek DJ, D’Amico D.
Regional differences in progenitor metabolism shape brain growth during development
Baumann N, Wagener RJ, Javed A, Conti E, Abe P, Lopes A, Sansevrino R, Lavalley A, Magrinelle, E, Szalai T, Fuciec Dm Ferreira C, Fievre S, Fouassier A, D’amico D, Harshnitz O, Jabaudon D
Journal de publication
Nature Communications
Auteurs:
Bonizzato, Marco; James, Nicholas D.; Pidpruzhnykova, Galyna; Pavlova, Natalia; Shkorbatova, Polina; Baud, Laetitia; Martinez-Gonzalez, Cristina; Squair, Jordan W.; DiGiovanna, Jack; Barraud, Quentin; Micera, Silvestro; Courtine, Gregoire
Date de publication:
Plateforme:
Études récentes de la plateforme
Restaurer le mouvement après une paralysie
Stimulation électrique de la moëlle épinière
Un réseau d’électrodes implantables, connecté à un stimulateur implanté, délivre des impulsions électriques aux différents nerfs spinaux.
Chaque...
Décoder les ondes de l’activité cérébrale
Comment nous avons identifié le mécanisme
Nous avons utilisé une technique appelée « optogénétique », qui utilise des impulsions lumineuses pour activer sélectivement le locus...
Neuro-ingénieriePsychologie, neurosciences cellulaires et neurosciences cognitivesSciences affectives
Reconnecter le cerveau social
Rééquilibrer les neuromodulateurs
De nouvelles approches, y compris une stimulation cérébrale ciblée et des traitements à base de psychédéliques contrôlés avec soin, visent à ...
