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Spinal cord injury (SCI) remains a global problem, and despite decades of research there currently is no cure for this disease. Recently, significant advances in the use of neuroprosthetic rehabilitation to improve locomotor outcomes after SCI have been made both in preclinical models and in humans. More specifically, the administration of lumbar epidural electrical stimulation (EES) has been shown to improve lower limb function after SCI with long-term improvements when combined with locomotor training. There have been important strides in understanding the mechanisms of this strategy and the role of the spinal cord, but there remains a significant gap in understanding the role of the brain in the recovery of locomotion after SCI. The purpose of this thesis was to address this gap and to elucidate the circuits in the brain that potentially, when modulated, could improve functional recovery after SCI and augment current therapeutic paradigms.
Grégoire Courtine, Jocelyne Bloch, Léonie Asboth, Robin Jonathan Demesmaeker, Anne Marie Lucienne Watrin, Sergio Daniel Hernandez, Henri Charles Alexandre Lorach, Jimmy James Ravier, Grégory Didier Dumont, Félix Antoine Martel, Laure Coquoz, Valeria Spagnolo, Thibault Jean Etienne Collin, Icare Sakr, Lucas Struber, Salif Axel Komi, Molywan Vat, Carmina Andrea Galvez Solano, Guillaume Vincent Charvet, Edeny Baaklini, Cathal John Harte, Olivier Pierre Nicolas Faivre, Serpil Karakas