Retinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and temporal filtering characteristics. This contrast adaptation has primarily been studied under spatially homogeneous stimulation. Yet, ganglion cell receptive fields are often characterized by spatial subfields, providing a substrate for nonlinear spatial processing. This raises the question whether contrast adaptation follows a similar subfield structure or whether it occurs globally over the receptive field even for local stimulation. We therefore recorded ganglion cell activity in isolated salamander retinas while locally changing visual contrast. Ganglion cells showed primarily global adaptation characteristics, with notable exceptions in certai...
The visual system continually adjusts its sensitivity to the statistical properties of the environme...
Nearby retinal ganglion cells of similar functional subtype have a tendency to discharge spikes in s...
Retinal ganglion cells adapt their responses to the amplitude of fluctuations around the mean light ...
Retinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and tempor...
SummaryRetinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and...
AbstractThe visual system adapts to the magnitude of intensity fluctuations, and this process begins...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
The visual system adapts to the magnitude of intensity fluctuations, and this process begins in the ...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
<div><p>When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
We investigated how the light-evoked input and output signals of salamander retinal ganglion cells a...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
The visual system continually adjusts its sensitivity to the statistical properties of the environme...
Nearby retinal ganglion cells of similar functional subtype have a tendency to discharge spikes in s...
Retinal ganglion cells adapt their responses to the amplitude of fluctuations around the mean light ...
Retinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and tempor...
SummaryRetinal ganglion cells react to changes in visual contrast by adjusting their sensitivity and...
AbstractThe visual system adapts to the magnitude of intensity fluctuations, and this process begins...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
The visual system adapts to the magnitude of intensity fluctuations, and this process begins in the ...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as well as...
<div><p>When visual contrast changes, retinal ganglion cells adapt by adjusting their sensitivity as...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
We investigated how the light-evoked input and output signals of salamander retinal ganglion cells a...
Adaptation in the retina is thought to optimize the encoding of natural light signals into sequences...
The visual system continually adjusts its sensitivity to the statistical properties of the environme...
Nearby retinal ganglion cells of similar functional subtype have a tendency to discharge spikes in s...
Retinal ganglion cells adapt their responses to the amplitude of fluctuations around the mean light ...