2023 - Research.com Neuroscience in France Leader Award
His primary areas of study are Subthalamic nucleus, Parkinson's disease, Deep brain stimulation, Neuroscience and Levodopa. The Subthalamic nucleus study combines topics in areas such as Adverse effect, Anesthesia, Stimulation and Surgery. His study in Anesthesia is interdisciplinary in nature, drawing from both Movement disorders and Central nervous system disease.
His studies deal with areas such as Apathy, Dopaminergic and Physical medicine and rehabilitation as well as Parkinson's disease. Stephan Chabardes has researched Deep brain stimulation in several fields, including Local anesthesia, Thalamus, Neurostimulation, Dystonia and Severity of illness. His study in Epilepsy and Electroencephalography falls within the category of Neuroscience.
Stephan Chabardes spends much of his time researching Deep brain stimulation, Neuroscience, Subthalamic nucleus, Parkinson's disease and Stimulation. The various areas that Stephan Chabardes examines in his Deep brain stimulation study include Anesthesia, Surgery, Thalamus, Globus pallidus and Movement disorders. As part of the same scientific family, he usually focuses on Surgery, concentrating on Epilepsy surgery and intersecting with Insular cortex.
His Neuroscience research incorporates themes from Pedunculopontine nucleus and Disease. The study incorporates disciplines such as Motor cortex, Cognition, Central nervous system disease and Premovement neuronal activity in addition to Subthalamic nucleus. His Parkinson's disease research includes themes of Apathy, Dopaminergic, Physical therapy and Physical medicine and rehabilitation.
His primary areas of investigation include Deep brain stimulation, Subthalamic nucleus, Neuroscience, Physical medicine and rehabilitation and Stimulation. Deep brain stimulation is a subfield of Parkinson's disease that he tackles. His Levodopa study, which is part of a larger body of work in Parkinson's disease, is frequently linked to Rating scale and Bayesian multivariate linear regression, bridging the gap between disciplines.
His Subthalamic nucleus study integrates concerns from other disciplines, such as Neurosurgery, Obsessive compulsive and Audiology. His work deals with themes such as Randomized controlled trial and Magnetoencephalography, which intersect with Physical medicine and rehabilitation. His Stimulation research incorporates elements of Valence, Arousal, Cognition, Cognitive bias and Mood disorders.
His primary areas of investigation include Deep brain stimulation, Physical medicine and rehabilitation, Subthalamic nucleus, Neuroscience and Audiology. His Deep brain stimulation study incorporates themes from Hippocampal formation, Ictal, Temporal lobe seizure and Cohort. His research in Physical medicine and rehabilitation intersects with topics in Brain–computer interface and Magnetoencephalography.
He undertakes interdisciplinary study in the fields of Subthalamic nucleus and Long term follow up through his research. As part of his studies on Neuroscience, Stephan Chabardes frequently links adjacent subjects like Movement disorders. His Audiology research is multidisciplinary, incorporating elements of Valence, Arousal, Cognition, Stimulation and Mood disorders.
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Five-year follow-up of bilateral stimulation of the subthalamic nucleus in advanced Parkinson's disease.
Paul Krack;Alina Batir;Nadège Van Blercom;Stephan Chabardes.
The New England Journal of Medicine (2003)
Deep brain stimulation of the subthalamic nucleus for the treatment of Parkinson's disease
Alim Louis Benabid;Stephan Chabardes;John Mitrofanis;Pierre Pollak.
Lancet Neurology (2009)
Subthalamic nucleus stimulation in severe obsessive-compulsive disorder.
Luc Mallet;Mircea Polosan;Nematollah Jaafari;Nicolas Baup.
The New England Journal of Medicine (2008)
Long term effects of bilateral subthalamic nucleus stimulation on cognitive function, mood, and behaviour in Parkinson’s disease
Aurelie Funkiewiez;Claire Ardouin;Elena Caputo;Paul Krack.
Journal of Neurology, Neurosurgery, and Psychiatry (2004)
Non-motor dopamine withdrawal syndrome after surgery for Parkinson's disease: predictors and underlying mesolimbic denervation
Stéphane Thobois;Claire Ardouin;Claire Ardouin;Eugénie Lhommée;Eugénie Lhommée;Hélène Klinger;Hélène Klinger.
Effects of pedunculopontine nucleus area stimulation on gait disorders in Parkinson's disease
M. U. Ferraye;M. U. Ferraye;B. Debû;B. Debû;V. Fraix;V. Fraix;L. Goetz;L. Goetz.
Deep brain stimulation: current challenges and future directions
Andres M. Lozano;Nir Lipsman;Hagai Bergman;Peter Brown.
Nature Reviews Neurology (2019)
Subthalamic stimulation in Parkinson’s disease: restoring the balance of motivated behaviours
Eugénie Lhommée;Eugénie Lhommée;Hélène Klinger;Hélène Klinger;Stéphane Thobois;Stéphane Thobois;Emmanuelle Schmitt;Emmanuelle Schmitt.
Bilateral pallidal deep brain stimulation for the treatment of patients with dystonia-choreoathetosis cerebral palsy: a prospective pilot study.
Marie Vidailhet;Jerome Yelnik;Christelle Lagrange;Valerie Fraix.
Lancet Neurology (2009)
Deep brain stimulation in epilepsy with particular reference to the subthalamic nucleus
Stéphan Chabardès;Philippe Kahane;Lorella Minotti;Adnan Koudsie.
Epileptic Disorders (2002)
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