Although adaptation to light occurs in the eye and mainly preserves the full dynamic range of neuronal responses during changing background illumination, it affects the entire visual system and helps to optimize visual information processing. We have shown recently that in rat superior colliculus (SC) neurons adaptation to light acts as a local low-pass filter because, in contrast to the primate SC, in rat collicular neurons adaptation to small stimuli is largely limited to the vicinity of the adaptor stimulus. However, it was unclear whether large visual stimuli would induce the same spatially limited adaptation. We addressed this question by evaluating the effects of 1.8°, 6.2° and 20.8° wide adaptor stimuli on test stimuli of variable si...
Variations in the size of a stationary spot stimulus differentially affected the on and off disc...
SummaryRetinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and...
Kohn and Movshon [Kohn, A., & Movshon, J. (2003). Neuronal adaptation to visual motion in area MT of...
Spatial integration of visual stimuli is a crucial step in visual information processing yet it is o...
Recordings from the rat optic tract fibers were used to assess changes in sensitivity under various ...
One of the visual system’s many tasks is to be able to distinguish objects from the background. The ...
Most neuroscience techniques target rodents as the primary animal model to study neural circuits. By...
SummaryVirtually all stages of the visual system exhibit adaptation: neurons adjust their responses ...
1. Responses from axons of single retinal ganglion cells in the rat's optic tract were used to measu...
Our behavior is largely determined by neuronal activity; and most changes in behavior are associated...
AbstractContrast adaptation, generated by prolonged viewing of a high contrast spatial pattern, is k...
AbstractPrior exposure to a moving grating of high contrast led to a substantial and persistent redu...
AbstractThe responsivity of primary sensory cortical neurons is reduced following prolonged adaptati...
Retinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and tempor...
Retinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and tempor...
Variations in the size of a stationary spot stimulus differentially affected the on and off disc...
SummaryRetinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and...
Kohn and Movshon [Kohn, A., & Movshon, J. (2003). Neuronal adaptation to visual motion in area MT of...
Spatial integration of visual stimuli is a crucial step in visual information processing yet it is o...
Recordings from the rat optic tract fibers were used to assess changes in sensitivity under various ...
One of the visual system’s many tasks is to be able to distinguish objects from the background. The ...
Most neuroscience techniques target rodents as the primary animal model to study neural circuits. By...
SummaryVirtually all stages of the visual system exhibit adaptation: neurons adjust their responses ...
1. Responses from axons of single retinal ganglion cells in the rat's optic tract were used to measu...
Our behavior is largely determined by neuronal activity; and most changes in behavior are associated...
AbstractContrast adaptation, generated by prolonged viewing of a high contrast spatial pattern, is k...
AbstractPrior exposure to a moving grating of high contrast led to a substantial and persistent redu...
AbstractThe responsivity of primary sensory cortical neurons is reduced following prolonged adaptati...
Retinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and tempor...
Retinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and tempor...
Variations in the size of a stationary spot stimulus differentially affected the on and off disc...
SummaryRetinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and...
Kohn and Movshon [Kohn, A., & Movshon, J. (2003). Neuronal adaptation to visual motion in area MT of...