Electrical microstimulation thresholds for behavioral detection and saccades in monkey frontal eye fields
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[1] Quick Rf. A vector-magnitude model of contrast detection. , 1974 .
[2] R.N.Dej.,et al. The Cerebral Cortex of Man , 1951, Neurology.
[3] C. Bruce,et al. Primate frontal eye fields. II. Physiological and anatomical correlates of electrically evoked eye movements. , 1985, Journal of neurophysiology.
[4] G. Barnes,et al. Brain and behavior: a task-dependent eye movement study. , 2008, Cerebral cortex.
[5] N. P. Bichot,et al. A visual salience map in the primate frontal eye field. , 2005, Progress in brain research.
[6] John H.R. Maunsell,et al. Behavioral Detection of Electrical Microstimulation in Different Cortical Visual Areas , 2007, Current Biology.
[7] N. P. Bichot,et al. Visual feature selectivity in frontal eye fields induced by experience in mature macaques , 1996, Nature.
[8] P. Tobler,et al. Role of human frontal and supplementary eye fields in double step saccades , 2002, Neuroreport.
[9] R. Romo,et al. Neuronal correlates of subjective sensory experience , 2005, Nature Neuroscience.
[10] Juha Silvanto,et al. Stimulation of the human frontal eye fields modulates sensitivity of extrastriate visual cortex. , 2006, Journal of neurophysiology.
[11] Walter Senn,et al. Repetitive TMS over the human oculomotor cortex: Comparison of 1-Hz and theta burst stimulation , 2006, Neuroscience Letters.
[12] T Moore,et al. Control of eye movements and spatial attention. , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[13] V. Ferrera,et al. Radial motion bias in macaque frontal eye field , 2006, Visual Neuroscience.
[14] Tirin Moore,et al. Changes in Visual Receptive Fields with Microstimulation of Frontal Cortex , 2006, Neuron.
[15] Björn N. S. Vlaskamp,et al. TMS pulses on the frontal eye fields break coupling between visuospatial attention and eye movements. , 2007, Journal of neurophysiology.
[16] G. Yule. On the Methods of Measuring Association between Two Attributes , 1912 .
[17] Robert H Wurtz,et al. Enhanced Performance with Brain Stimulation: Attentional Shift or Visual Cue? , 2006, The Journal of Neuroscience.
[18] James R Müller,et al. Microstimulation of the superior colliculus focuses attention without moving the eyes. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[19] G. McCarthy,et al. Functional organization of human supplementary motor cortex studied by electrical stimulation , 1991, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[20] T. Moore,et al. Microstimulation of the frontal eye field and its effects on covert spatial attention. , 2004, Journal of neurophysiology.
[21] C. Evinger,et al. Different forms of blinks and their two-stage control , 2004, Experimental Brain Research.
[22] R. Deichmann,et al. Concurrent TMS-fMRI and Psychophysics Reveal Frontal Influences on Human Retinotopic Visual Cortex , 2006, Current Biology.
[23] E. Bamberg,et al. Channelrhodopsin-2, a directly light-gated cation-selective membrane channel , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[24] R. Marrocco,et al. Electrical microstimulation of primate posterior parietal cortex initiates orienting and alerting components of covert attention , 2002, Experimental Brain Research.
[25] C. Bruce,et al. The effect of attentive fixation on eye movements evoked by electrical stimulation of the frontal eye fields , 2004, Experimental Brain Research.
[26] Vincent P. Ferrera,et al. Microstimulation of the Dorsolateral Prefrontal Cortex Biases Saccade Target Selection , 2005, Journal of Cognitive Neuroscience.
[27] Robert H. Wurtz,et al. Subcortical Modulation of Attention Counters Change Blindness , 2004, The Journal of Neuroscience.
[28] J. Schall,et al. Neural Control of Voluntary Movement Initiation , 1996, Science.
[29] Jeffrey D Schall,et al. The neural selection and control of saccades by the frontal eye field. , 2002, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.
[30] C. Bruce,et al. Suppression of task-related saccades by electrical stimulation in the primate's frontal eye field. , 1997, Journal of neurophysiology.
[31] R. Quick. A vector-magnitude model of contrast detection , 2004, Kybernetik.
[32] Albert F Fuchs,et al. Contribution of the frontal eye field to gaze shifts in the head-unrestrained monkey: effects of microstimulation. , 2007, Journal of neurophysiology.
[33] James J DiCarlo,et al. Using neuronal latency to determine sensory-motor processing pathways in reaction time tasks. , 2005, Journal of neurophysiology.
[34] P. H. Schiller,et al. The effects of frontal eye field and dorsomedial frontal cortex lesions on visually guided eye movements , 1998, Nature Neuroscience.
[35] Katherine M. Armstrong,et al. Selective gating of visual signals by microstimulation of frontal cortex , 2003, Nature.
[36] M. Goldberg,et al. Behavioral enhancement of visual responses in monkey cerebral cortex. II. Modulation in frontal eye fields specifically related to saccades. , 1981, Journal of neurophysiology.
[37] E. J. Tehovnik,et al. Behavioural state affects saccades elicited electrically from neocortex , 2004, Neuroscience & Biobehavioral Reviews.