Anatol G. Feldman


Professeur associé
514 340-2111, poste 2192
514  340-2154 (télécopieur)

Adresse physique
Institut de réadaptation Gingras-Lindsay de Montréal
6300, avenue Darlington
Montréal (Québec) H3S 2J4

Thème (s)

  • Mécanismes de contrôle du mouvement, coordination des membres supérieurs, tronc, mouvements répétitifs, locomotion, hémiparésie, Parkinson;
  • Fonctions et activités sensorielles, motrices et cognitives.

Publications choisies

  • Zhang L,  Guberman S,  FeldmanAG  (2022). Shifts in the fovea-centered frame of reference may underlie saccades, visual perception, and eye-hand coordination . J Neurophysiol.  128(4):1025-1039. Review.
  • Feldman AG,  Levin MF, Garofolini, A, Piscitelli D,  Zhang L. (2021). Central pattern generator and human locomotion in the context of referent control of motor actions. Clinical Neurophysiology. 132(11):2870-2889. Review.
  • Duval L  Zhang L,  Lauzé AS4Yu Q Zhu Yu Q 5Dorothy BarthélemyD6Numa Dancause N1Mindy F LevinMF7Feldman AG. (2021). Effect of object texture and weight on psilateralcorticospinal influences during bimanual holding in humans.  Motor Control 26(1):76-91.
  • Tomita Y, Turpin N, Piscitelli D, Feldman AG, Levin MF. (2020). Stroke subjects prioritize postural stability during reaching from standing .Journal of Neurophysiology;123(5):1756-1765.
  • Feldman AG, Zhang L. (2020). Eye, head movements and VOR revisited in the contest of indirect, referent control of motor actions. Invited review. Journal of Neurophysiology.
  • Chan-Viquez D, Hasanbarani F, Zhang  LAnaby D, Turpin NA,  Lamontagne A, Feldman AGLevin (2020) Development of vertical and forward jumping skills in typically developing children in the context ofreferent control of motor actions. Developmental Psychobiology. 62(6):711-722
  • Feldman AG, Ilmane N, Sangani S, Raptis H, Esmailzadeh N ( 2013) Action-perception coupling in kinesthesia: a new approach. Neuropsychologia. 51: 2590-2599;
  • Sangini S, Raptis H, Feldman AG (2011). Subthreshold control of anticipatory actions by the motor cortex in humans. Behavioral Brain Research. 224:145-154;
  • Feldman AG, Krasovsky T, Baniña MC, Lamontagne A, Levin M F (2011) Changes in the referent body location and configuration may underlie human gait, as confirmed by findings of multi-muscle activity minimizations and phase resetting. Experimental Brain Research. 210: 91-115;
  • Feldman AG (2011) Space and time in the context of the equilibrium-point theory. Advanced review. Invited paper.Wiley Interdisciplinary Reviews: Cognitive Science, 2(3) 287-304;
  • Raptis H, Burtet L, Forget R, Feldman AG. (2010). Control of wrist position and muscle relaxation by shifting spatial frames of reference for motoneuronal recruitment: possible involvement of corticospinal pathways. Journal of Physiology (London). 588(Pt 9): 1551-1170.


  • Feldman AG. (2015) Referent control of action and perception. Challenging conventional theories in behavioral neuroscience. Springer.