Simon Borgognon
University of Fribourg
16 Papers
12 Citations
Simon Borgognon is an academic researcher from University of Fribourg. The author has contributed to research in topics: Primary motor cortex & Motor cortex. The author has an hindex of 5, co-authored 12 publications. Previous affiliations of Simon Borgognon include École Polytechnique Fédérale de Lausanne & MIND Institute.
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Papers
Recruitment of upper-limb motoneurons with epidural electrical stimulation of the cervical spinal cord.
Nathan Greiner,Beatrice Barra,Giuseppe Schiavone,Henri Lorach,Nicholas D. James,Sara Conti,Mélanie Kaeser,Florian Fallegger,Simon Borgognon,Simon Borgognon,Stéphanie P. Lacour,Jocelyne Bloch,Grégoire Courtine,Grégoire Courtine,Marco Capogrosso,Marco Capogrosso +15 more
TL;DR: In this article, the authors combined a computational model of the cervical spinal cord with experiments in macaque monkeys to explore the mechanisms of upper-limb motoneuron recruitment with EES and characterize the selectivity of cervical interfaces.
Soft, Implantable Bioelectronic Interfaces for Translational Research
Giuseppe Schiavone,Florian Fallegger,Kang Xiaoyang,Beatrice Barra,Nicolas Vachicouras,Evgenia Roussinova,Ivan Furfaro,Sébastien Jiguet,Ismael Seáñez,Simon Borgognon,Simon Borgognon,Andreas Rowald,Qin Li,Chuan Qin,Erwan Bezard,Jocelyne Bloch,Jocelyne Bloch,Grégoire Courtine,Grégoire Courtine,Marco Capogrosso,Stéphanie P. Lacour +20 more
TL;DR: A translational framework engineered to accelerate the deployment of microfabricated interfaces for translational research is proposed and applied to the soft neurotechnology called electronic dura mater, e‐dura, and confirmed in nonhuman primates.
Intrafascicular peripheral nerve stimulation produces fine functional hand movements in primates
Marion Badi,Sophie Wurth,Ilaria Scarpato,Evgenia Roussinova,Elena Losanno,Andrew Bogaard,Maude Delacombaz,Simon Borgognon,Simon Borgognon,Paul Čvančara,Florian Fallegger,David K. Su,Eric Schmidlin,Grégoire Courtine,Grégoire Courtine,Jocelyne Bloch,Stéphanie P. Lacour,Thomas Stieglitz,Eric M. Rouiller,Marco Capogrosso,Marco Capogrosso,Silvestro Micera,Silvestro Micera +22 more
TL;DR: In this article, the authors proposed a method to restore dexterous hand control for people with paralysis by using surface or intramuscular stimulation, but this method generated insufficient force to recov...
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A spinal cord neuroprosthesis for locomotor deficits due to Parkinson's disease.
Tomislav Milekovic,Eduardo Martin Moraud,C. Moerman,Flavio Raschellà,Shiqi Sun,M.G. Perich,Camille Varescon,Robin Demesmaeker,Alice Bruel,Léa Bole-Feysot,Giuseppe Schiavone,Elvira Pirondini,YunLong Cheng,Li Hao,Andrea Gálvez,Sergio Daniel Hernandez-Charpak,Gregory Dumont,Jimmy Ravier,Camille G. Le Goff-Mignardot,Jean-Baptiste Mignardot,Gaia Carparelli,C R Harte,Nicolas Hankov,Viviana Aureli,Anne Watrin,Hendrik Lambert,D H Borton,Jean Laurens,Isabelle Vollenweider,Simon Borgognon,François Bourre,Michel Goillandeau,Wai Kin D Ko,Laurent Petit,Qin Li,Rik Buschman,Nick Buse,Maria S. Yaroshinsky,Jean-Baptiste Ledoux,Fabio Becce,Mayté Castro Jimenez,Julien Bally,Timothy Denison,D. Guehl,Auke Jan Ijspeert,Marco Capogrosso,Jordan W. Squair,Leonie Asboth,Phil Starr,Doris D. Wang,S. Lacour,Silvestro Micera,C. Qin,Jocelyne Bloch,Erwan Bezard,Grégoire Courtine +55 more
TL;DR: A spinal cord neuroprosthesis targeting leg motor neurons in real time improves walking and reduces freezing of gait in non-human primate models and in one individual with advanced Parkinson’s disease.
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Effects of dorsolateral prefrontal cortex lesion on motor habit and performance assessed with manual grasping and control of force in macaque monkeys
Simon Badoud,Simon Borgognon,Jérôme Cottet,Pauline Chatagny,Véronique Moret,Michela Fregosi,Mélanie Kaeser,Ekaterina Fortis,Eric Schmidlin,Jocelyne Bloch,Jean-François Brunet,Eric M. Rouiller +11 more
TL;DR: The hypothesis that dlPFC contributes to predict the grip force required when a precise level of force to be generated is known beforehand is tested and the present data related to the prediction of grip force are well in line with the previous fMRI data reported for human subjects.
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