Missions

Richard Levy est professeur de neurologie à la Faculté de Santé de Sorbonne Université. Il dirige l’Institut de la Mémoire et de la Maladie d’Alzheimer (IM2A), l’Unité de Neurologie Comportementale (UNC) dans le département de neurologie de l’hôpital de la Pitié-Salpêtrière et le laboratoire FRONTLAB à l’Institut du Cerveau et de la Moelle Epinière (ICM) dont l’objectif est de mieux comprendre les bases cérébrales de comportements volontaires tels que la planification des actions, la créativité et la prise de décision. Il a été chercheur à l’Université de Yale et a dirigé le service de neurologie de l’Hôpital Saint-Antoine (Paris).

Références

Revues:

  1. R. Levy (2021).
    Apathy: a pathology of goal-directed behaviour and prefrontal cortex -basal ganglia circuits Apathy: Clinical and neuroscientific perspectives from neurology and psychiatry”.  Aleman A & Lanctôt KL (eds). Oxford University Press. UK
  2. R. Le Bouc, B. Garcin, M. Urbanski, E. Volle, B. Dubois, R. Levy (2021)
    Anatomy And Disorders Of Frontal Lobe Functions: Fundamental Functions. Chapter 1.  In Encyclopedia of Behavioural Neuroscience 2nd Edition. Vol.2 Ed. S Della Sala. Elsevier pp.266-279
  3. R. Le Bouc, B. Garcin, M. Urbanski, E. Volle, B. Dubois, R. Levy (2021)
    Anatomy And Disorders Of Frontal Lobe Functions: Higher -order functions. Chapter 2 in Encyclopedia of Behavioural Neuroscience 2nd Edition Vol 2. Elsevier pp. 280-288

Articles originaux:

  1. V. Czernecki , E. Benchetrit, M Houot, F Pineau, G Mangone, J-C Corvol, M Vidailhet, R. Levy (2021)
    Social Cognitive Impairment In Early Parkinson’s Disease: A Novel “Mild Impairment”? Parkinsonism and Related Disorders DOI: 10.1016/j.parkreldis.2021.02.023
  2. V. Godefroy, D. Tanguy, A. Bouzigues, I. Sezer, K. Lecouturier, J. Ferrand-Verdejo, C. Azuar, D. Bendetowicz, G. Carle, A. Rametti-Lacroux, S. Bombois, E. Cognat, P. Jannin, X. Morandi, I. Le Ber, R. Levy, B. Batrancourt and R. Migliaccio (2021)
    Frontotemporal dementia subtypes based on behavioural inhibition deficits Alzheimer’s & Dementia doi: 10.1002/dad2.12178
  3. D Saracino, S Ferrieux, M Noguès-Lassiaille et al. (2021).
    PPA associated with GRN mutations: New insights into the non-amyloid logopenic variant. Neurology doi: 10.1212/WNL.0000000000012174
  4. M. Ovando-Tellez, B. Rouhaut, N. Georges, T. Bieth, L. Hugueville, Y. Ibrahim, O. Courbet, R. Levy, B. Garcin, E. Volle (2021). Do adding beer to coffee enhances the activation of drinks? An ERP study of implicit categorization processes. Cognitive Neuroscience doi:10.1080/17588928.2021.1940117
  5. D Saracino; K Dorgham; A Camuzat et al. (2021)
    Plasma Nfl Levels In C9orf72 And GRN-Associated Diseases: : from tailored references to clinical applications. J Neurol Neurosurg Psychiatr doi: 10.1136/jnnp-2021-326914.
  6. Godefroy V, Levy R,  Bouzigues A, Rametti-Lacroux, MIgliaccio R, Batrancourt B (2021).
    The ECOCAPTURE@HOME project: protocol for the remote assessment of apathy and its everyday-life consequences. Int J Environ Res Public Health. doi: 10.3390/ijerph18157824.
  7. M. C. Sanches, F. Amzallag, B. Dubois, R. Levy,  D. Q. Truong, M. Bikson, M. Teichmann, A. Valero-Cabré.
    Evaluation of the effect of transcranial  Direct Current Stimulation on language impairments in the behavioral variant of Frontotemporal Dementia. Brain Communications (in press)