| scholarly article | Q13442814 |
| P50 | author | Warren M Slocum | Q56989709 |
| P2093 | author name string | Edward J Tehovnik | |
| P2860 | cites work | Direction selectivity of excitation and inhibition in simple cells of the cat primary visual cortex. | Q51980999 |
| Psychophysics of electrical stimulation of striate cortex in macaques. | Q52042515 | ||
| Microstimulation of V1 delays the execution of visually guided saccades | Q60143069 | ||
| Nature of a cortical inhibitory process | Q69990234 | ||
| Columnar organization of color cells in monkey's striate cortex | Q70977838 | ||
| Implantation of magnetic search coils for measurement of eye position: an improved method | Q71522489 | ||
| Magnetically induced phosphenes in sighted, blind and blindsighted observers | Q73106762 | ||
| Laminar variation in threshold for detection of electrical excitation of striate cortex by macaques | Q81002419 | ||
| The sensations produced by electrical stimulation of the visual cortex | Q24539192 | ||
| Direct and indirect activation of cortical neurons by electrical microstimulation | Q31048540 | ||
| Phosphenes produced by electrical stimulation of human occipital cortex, and their application to the development of a prosthesis for the blind | Q34210487 | ||
| The action of gamma-aminobutyric acid on cortical neurones | Q34243713 | ||
| Look and see: how the brain moves your eyes about | Q34434139 | ||
| Shock-induced inhibition in the lateral geniculate nucleus of the rhesus monkey | Q41347300 | ||
| Manifestation of scotomas created by transcranial magnetic stimulation of human visual cortex | Q41680140 | ||
| The Ferrier Lecture 2004 what can transcranial magnetic stimulation tell us about how the brain works? | Q43238935 | ||
| An intracellular analysis of the visual responses of neurones in cat visual cortex | Q43707328 | ||
| The influence of current direction on phosphene thresholds evoked by transcranial magnetic stimulation | Q43781261 | ||
| Transcranial magnetic stimulation. Which part of the current waveform causes the stimulation? | Q43783863 | ||
| Changes in visual cortex excitability in blind subjects as demonstrated by transcranial magnetic stimulation | Q43901504 | ||
| Suppression of visual perception by magnetic coil stimulation of human occipital cortex | Q44323539 | ||
| Spatiotemporal effects of microstimulation in rat neocortex: a parametric study using multielectrode recordings | Q44524223 | ||
| Cortical inhibitory circuits in eye-movement generation | Q44680383 | ||
| Transcranial magnetic stimulation in the visual system. I. The psychophysics of visual suppression | Q45059454 | ||
| Transcranial magnetic stimulation in the visual system. II. Characterization of induced phosphenes and scotomas | Q45059458 | ||
| Pharmacology of cortical inhibition | Q47715638 | ||
| Brightness of phosphenes elicited by electrical stimulation of human visual cortex | Q48098068 | ||
| Phosphenes and transient scotomas induced by magnetic stimulation of the occipital lobe: their topographic relationship | Q48262139 | ||
| Two periods of processing in the (circum)striate visual cortex as revealed by transcranial magnetic stimulation | Q48262181 | ||
| Orientation selectivity of synaptic potentials in neurons of cat primary visual cortex. | Q48347441 | ||
| Saccadic eye movements evoked by microstimulation of striate cortex | Q48380682 | ||
| Interictal cortical excitability in migraine: a study using transcranial magnetic stimulation of motor and visual cortices. | Q48409458 | ||
| Microstimulation of macaque V1 disrupts target selection: effects of stimulation polarity | Q48411942 | ||
| Strength and orientation tuning of the thalamic input to simple cells revealed by electrically evoked cortical suppression | Q48434621 | ||
| The contribution of inhibitory mechanisms to the receptive field properties of neurones in the striate cortex of the cat | Q48442789 | ||
| Transcranial magnetic stimulation confirms hyperexcitability of occipital cortex in migraine | Q48480291 | ||
| Differential effects of laminar stimulation of V1 cortex on target selection by macaque monkeys | Q48482693 | ||
| Transient visual field defects induced by transcranial magnetic stimulation over human occipital pole | Q48488758 | ||
| Punctate chemical lesions of striate cortex in the macaque monkey: effect on visually guided saccades | Q48552547 | ||
| A functional microcircuit for cat visual cortex | Q48828358 | ||
| Microstimulation of V1 affects the detection of visual targets: manipulation of target contrast | Q48864160 | ||
| Feasibility of a visual prosthesis for the blind based on intracortical microstimulation of the visual cortex | Q49022084 | ||
| An inhibitory process in the cerebral cortex | Q51236242 | ||
| Delaying visually guided saccades by microstimulation of macaque V1: spatial properties of delay fields. | Q51315396 | ||
| Microstimulation of V1 input layers disrupts the selection and detection of visual targets by monkeys. | Q51618921 | ||
| P433 | issue | 3 | |
| P304 | page(s) | 413-424 | |
| P577 | publication date | 2006-08-01 | |
| P1433 | published in | Experimental Brain Research | Q13358841 |
| P1476 | title | Microstimulation of V1 delays visually guided saccades: a parametric evaluation of delay fields | |
| P478 | volume | 176 |
| Q48234992 | Delaying forelimb responses by microstimulation of macaque V1. |
| Q47870094 | Electrical Stimulation of Visual Cortex: Relevance for the Development of Visual Cortical Prosthetics. |
| Q37574452 | Microstimulation of visual cortex to restore vision |
| Q30499124 | Phosphene induction by microstimulation of macaque V1. |
| Q47203846 | Saturation in Phosphene Size with Increasing Current Levels Delivered to Human Visual Cortex |
| Q36849112 | What delay fields tell us about striate cortex |
Search more.