Many neurons within prefrontal cortex exhibit a tonic discharge between visual stimulation and motor response. This delay activity may contribute to movement, memory, and vision. We studied delay activity sent from the frontal eye field (FEF) in prefrontal cortex to the superior colliculus (SC). We evaluated whether this efferent delay activity was related to movement, memory, or vision, to establish its possible functions. Using antidromic stimulation, we identified 66 FEF neurons projecting to the SC and we recorded from them while monkeys performed a Go/Nogo task. Early in every trial, a monkey was instructed as to whether it would have to make a saccade (Go) or not (Nogo) to a target location, which permitted identification of delay act...
One way we keep track of our movements is by monitoring corollary discharges or internal copies of m...
Perception is dependent not only on sensory input but on the state of the brain receiving that input...
Perception depends not only on sensory input but also on the state of the brain receiving that input...
The ability of primates to make rapid and accurate saccadic eye movements for exploring the natural ...
The ability of primates to make rapid and accurate saccadic eye movements for exploring the natural ...
AbstractThe ability of primates to make rapid and accurate saccadic eye movements for exploring the ...
The ability of primates to make rapid and accurate saccadic eye movements for exploring the natural ...
Neuronal processing in cerebral cortex and signal transmission from cortex to brain stem have been s...
AbstractSpatially selective delay activity in the frontal eye field (FEF) is hypothesized to be part...
Many neurons in the frontal eye field (FEF) exhibit visual responses and are thought to play importa...
The frontal eye field (FEF) and superior colliculus (SC) contribute to saccadic eye movement generat...
A great deal of research on the prefrontal cortex (PF), especially in nonhuman primates, has focused...
<div><p>A great deal of research on the prefrontal cortex (PF), especially in nonhuman primates, has...
Many neurons in the frontal eye field (FEF) and lateral intraparietal (LIP) areas of cerebral cortex...
1. Single-neuron activity was recorded from the prefrontal cor-tex of monkeys performing saccadic ey...
One way we keep track of our movements is by monitoring corollary discharges or internal copies of m...
Perception is dependent not only on sensory input but on the state of the brain receiving that input...
Perception depends not only on sensory input but also on the state of the brain receiving that input...
The ability of primates to make rapid and accurate saccadic eye movements for exploring the natural ...
The ability of primates to make rapid and accurate saccadic eye movements for exploring the natural ...
AbstractThe ability of primates to make rapid and accurate saccadic eye movements for exploring the ...
The ability of primates to make rapid and accurate saccadic eye movements for exploring the natural ...
Neuronal processing in cerebral cortex and signal transmission from cortex to brain stem have been s...
AbstractSpatially selective delay activity in the frontal eye field (FEF) is hypothesized to be part...
Many neurons in the frontal eye field (FEF) exhibit visual responses and are thought to play importa...
The frontal eye field (FEF) and superior colliculus (SC) contribute to saccadic eye movement generat...
A great deal of research on the prefrontal cortex (PF), especially in nonhuman primates, has focused...
<div><p>A great deal of research on the prefrontal cortex (PF), especially in nonhuman primates, has...
Many neurons in the frontal eye field (FEF) and lateral intraparietal (LIP) areas of cerebral cortex...
1. Single-neuron activity was recorded from the prefrontal cor-tex of monkeys performing saccadic ey...
One way we keep track of our movements is by monitoring corollary discharges or internal copies of m...
Perception is dependent not only on sensory input but on the state of the brain receiving that input...
Perception depends not only on sensory input but also on the state of the brain receiving that input...