Are you an EPFL student looking for a semester project?
Work with us on data science and visualisation projects, and deploy your project as an app on top of GraphSearch.
Although axonal regeneration after CNS injury is limited, partial injury is frequently accompanied by extensive functional recovery. To investigate mechanisms underlying spontaneous recovery after incomplete spinal cord injury, we administered C7 spinal cord hemisections to adult rhesus monkeys and analyzed behavioral, electrophysiological and anatomical adaptations. We found marked spontaneous plasticity of corticospinal projections, with reconstitution of fully 60% of pre-lesion axon density arising from sprouting of spinal cord midline-crossing axons. This extensive anatomical recovery was associated with improvement in coordinated muscle recruitment, hand function and locomotion. These findings identify what may be the most extensive natural recovery of mammalian axonal projections after nervous system injury observed to date, highlighting an important role for primate models in translational disease research.
Loading
Loading
Loading
Loading
Loading
Quentin Barraud, Jocelyne Bloch, David Allenson Borton, Marco Capogrosso, Grégoire Courtine, Simone Ellen Joze Duis, Jérôme Gandar, Eduardo Martin Moraud, Silvestro Micera, Jean-Baptiste Mignardot, Tomislav Milekovic, Elodie Rey, Fabien Bertrand Paul Wagner
Quentin Barraud, Grégoire Courtine, Lucia Florinda Friedli Wittler, Pavel Musienko, Rubia van den Brand