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Financement de l’UE (2 996 049 €) : Cartographie de l’interaction cerveau-moelle épinière vers la compréhension et le traitement des troubles du mouvement Hor08/01/2024 Programme de recherche et d'innovation de l'UE « Horizon »
Vue d’ensemble
Texte
Cartographie de l’interaction cerveau-moelle épinière vers la compréhension et le traitement des troubles du mouvement
Movement is one of the most important activities in our everyday life. It is an essential element for maintaining overall health and well-being, with more than 1 billion people globally suffering from a neurological disease that directly affects their movement. Each year, more than 1.5 million people experience a stroke in the EU alone leading to death, paralysis, or some kind of disability; this is a significant burden on healthcare systems with no cure. We must address the questions: How do we move? What is the underlying physical mechanism of the brain-spinal cord interaction that orchestrates the generation of movement? To be able to answer those, a high-performance bi-directional interface is required. Move2Treat explores disruptive science by developing a new brain-spinal cord interface to investigate the associated neuronal circuits. In fact, Move2Treat has 3 distinct breakthroughs: (1) a novel theory on movement generation by rotating ensembles validation the neuronal population activity across central brain regions and the spinal cord. (2) A bi-directional soft-fiber platform as neural interface to brain and spinal cord in freely behaving species. (3) Validation of theory (1) and neural interface (2) in the disease models. The developed theory and implant enable the “next-generation pacemaker of the nervous system” based on the first complete, minimally invasive, wireless, biocompatible and soft multifunctional fiber-based neural interface to map the brain-spinal cord activity by simultaneous stimulation/recording in vivo and real-time with high spatial and temporal resolution. Move2Treat is a European approach to establish technological sovereignty, delivering the “next-generation precision sensing for neurological science”.
| Albert-Ludwigs-Universitaet Freiburg | 791 891 € |
| Danmarks Tekniske Universitet | 834 634 € |
| Kobenhavns Universitet | 703 996 € |
| Technologiko Panepistimio Kyprou | 665 528 € |
https://cordis.europa.eu/project/id/101130161
Cette annonce se réfère à une date antérieure et ne reflète pas nécessairement l’état actuel.