Amador, Nelly; Schlag-Rey, Madeleine; Schlag, John (2004) Primate antisaccade. II. Supplementary eye field neuronal activity predicts correct performance. J Neurophysiol 91:1672-89
|
Amador, N; Schlag-Rey, M; Schlag, J (2000) Reward-predicting and reward-detecting neuronal activity in the primate supplementary eye field. J Neurophysiol 84:2166-70
|
Tian, J; Schlag, J; Schlag-Rey, M (2000) Testing quasi-visual neurons in the monkey's frontal eye field with the triple-step paradigm. Exp Brain Res 130:433-40
|
Schlag, J; Pouget, A; Sadeghpour, S et al. (1998) Interactions between natural and electrically evoked saccades. III. Is the nonstationarity the result of an integrator not instantaneously reset? J Neurophysiol 79:903-10
|
Amador, N; Schlag-Rey, M; Schlag, J (1998) Primate antisaccades. I. Behavioral characteristics. J Neurophysiol 80:1775-86
|
Dominey, P F; Schlag, J; Schlag-Rey, M et al. (1997) Colliding saccades evoked by frontal eye field stimulation: artifact or evidence for an oculomotor compensatory mechanism underlying double-step saccades? Biol Cybern 76:41-52
|
Schlag, J; Schlag-Rey, M (1992) Neurophysiology of eye movements. Adv Neurol 57:135-47
|
Schlag, J; Schlag-Rey, M; Pigarev, I (1992) Supplementary eye field: influence of eye position on neural signals of fixation. Exp Brain Res 90:302-6
|
Dassonville, P; Schlag, J; Schlag-Rey, M (1992) Oculomotor localization relies on a damped representation of saccadic eye displacement in human and nonhuman primates. Vis Neurosci 9:261-9
|
Schlag-Rey, M; Schlag, J; Dassonville, P (1992) How the frontal eye field can impose a saccade goal on superior colliculus neurons. J Neurophysiol 67:1003-5
|
Showing the most recent 10 out of 21 publications