Anatol G. Feldman, Ph.D.
Professeur titulaire, Département de physiologie/Institut de génie biomédical, Université de Montréal
Chercheur régulier, CRIR–Institut universitaire sur la réadaptation en déficience physique de Montréal (IURDPM) pavillon Gingras du CIUSSS du Centre-Sud-de-l'Île-de-Montréal et CRIR–Hôpital juif de réadaptation du CISSS de Laval
Téléphone : 514 340-2111 (2192)
Télécopieur : 514 340-2154
Courriel : [email protected]
Formation
- B.Sc., physique, Institut de physique et techniques de Moscou, Russie, 1963
- Ph.D., mathématique et physique, Institut de physique et techniques de Moscou, Russie, 1968
- D.Sci., neurophysiologie, Université de Moscou, Russie, 1980
Intérêts de recherche
Mécanismes de contrôle du mouvement, coordination des membres supérieurs, tronc, mouvements répétitifs, hémiparésie, Parkinson.
Laboratoire de recherche
Laboratoire sur le contrôle sensorimoteur et la réadaptation
Publications récentes
Ilmane, N., Sangani, S. & Feldman, A.G. (2013). Corticospinal control strategies underlying voluntary and involuntary wrist movements. Behavioural Brain Research, 236(1), 350-358.
Mullick, A.A., Musampa, N.K., Feldman, A.G. & Levin, M.F.
(2013). Stretch reflex spatial threshold measure discriminates between spasticity and rigidity. Journal of Clinical Neurophysiology, 124(4), 740-751.
Ustinova, K.I., Feldman, A.G. & Levin, M.F. (2013). Bilateral coupling facilitates recovery of rhythmical movements from perturbation in healthy and post-stroke subjects. Experimental Brain Research, 227(2), 263-74.
Krasovsky, T., Baniña, M. C., Hacmon, R., Feldman, A.G., Lamontagne, A. & Levin, M.F. (2012). Stability of gait and interlimb coordination in older adults. Journal of Neurophysiology, 107(9), 2560-2569.
Feldman, A.G., Krasovsky, T., Baniña, M.C., 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, 201(1), 91-115.
Sangani, S.G., Raptis, H.A. & Feldman, A.G. (2011). Subthreshold corticospinal control of anticipatory actions in humans. Behavioural Brain Research, 224(1), 145-154.
Feldman, A.G. (2010). How the brain solves redundancy problems. Motor Control, 14(3), e1-e5.
Feldman, A.G. (2010). Space and time in the context of equilibrium-point theory. WIREs Cognitive Science, 1-18.
Latash, M.L., Friedman, J., Kim, S.W., Feldman, A.G. & Zatsiorsky, V.M. (2010). Prehension synergies and control with referent hand configurations. Experimental Brain Research, 202(1), 213-229.
Raptis, H., Burtet, L., Forget, R. & Feldman, A.G. (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, 588(Pt9), 1551-1570.
Yang, F. & Feldman, A.G. (2010). Reach-to-grasp movement as a minimization process. Experimental Brain Research, 201(1), 75-92.
Feldman, A.G. (2009). Origin and advances of the equilibrium-point hypothesis. In D. Sternad (Ed.), Progress in Motor Control V. A Multidisciplinary Perspective (Vol. 629, pp. 637-644). New York NY: Springer.
Feldman, A.G. (2009). New insights into action-perception coupling. Experimental Brain Research, 194(1), 39-58.
Feldman, A.G. (2009). Origin and advances of the equilibrium-point hypothesis. Advances in Experimental Medicine and Biology, 629, 637-643.
Feldman, A.G. & Levin, M.F. (2009). The equilibrium-point hypothesis – past, present and future. Advances in Experimental Medicine and Biology, 629, 699-726.
Gorniak, S.L., Feldman, A.G. & Latash, M.L. (2009). Joint coordination during bimanual transport of real and imaginary objects. Neuroscience Letters, 456(2), 80-84.
Calota, A., Feldman, A.G. & Levin, M.F. (2008). Spasticity measurement based on tonic stretch reflex threshold in stroke using a portable device. Clinical Neurophysiology, 119(10), 2329-2337.
Côté, J.N., Feldman, A.G., Mathieu, P.A. & Levin, M.F. (2008). Effects of fatigue on intermuscular coordination during repetitive hammering. Motor Control, 12(2), 79-92.
Feldman, A.G. (2008). Threshold position control signifies a common spatial frame of reference for motor action and kinesthesia. Brain Research, 75(5), 497-499.
Axe de recherche
Axe 1
Thème de recherche
Thème 1 - Mécanismes fonctionnels
Site de recherche
CRIR - Institut universitaire sur la réadaptation en déficience physique de Montréal (IURDPM) du CIUSSS CSMTL
CRIR – Hôpital juif de réadaptation du CISSS de Laval
Affiliation universitaire
