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Literature DB >> 3380804

Background light and the contrast gain of primate P and M retinal ganglion cells.

Abstract

Retinal ganglion cells projecting to the monkey lateral geniculate nucleus fall into two classes: those projecting to the magnocellular layers of the nucleus (M cells) have a higher contrast gain to luminance patterns at photopic levels of retinal illumination than those projecting to the parvocellular layers (P cells). We report here that this difference in luminance contrast gain between M and P cells is maintained at low levels of mean retinal illumination. In fact, our results suggest that in the mesopic and scotopic ranges of mean illumination, the M-cell/magnocellular pathway is the predominant conveyor of information about spatial contrast to the visual cortex.

Mesh：

Year: 1988 PMID： 3380804 PMCID： PMC280465 DOI： 10.1073/pnas.85.12.4534

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

20 in total

Background light and the contrast gain of primate P and M retinal ganglion cells.

1. The contrast sensitivity of retinal ganglion cells of the cat.

2. Spatial and chromatic interactions in the lateral geniculate body of the rhesus monkey.

3. The effects of light-adaptation on rod and cone receptive field organization of monkey ganglion cells.

4. Rod and cone interaction in dark-adapted monkey ganglion cells.

5. Scotopic and mesopic light adaptation in the cat's retina.

6. Three factors limiting the reliable detection of light by retinal ganglion cells of the cat.

7. Light adaptation of primate cones: an analysis based on extracellular data.

8. Spatial and temporal contrast sensitivities of neurones in lateral geniculate nucleus of macaque.

9. Movement sensitivity of retinal ganglion cells in monkey.

10. Light adaptation in cells of macaque lateral geniculate nucleus and its relation to human light adaptation.

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Review 2. Mapping receptive fields in primary visual cortex.

3. Enabling global processing in simultanagnosia by psychophysical biasing of visual pathways.

Review 4. Neurophysiological models for new treatment development in schizophrenia: early sensory approaches.

5. The initial ocular following responses elicited by apparent-motion stimuli: reversal by inter-stimulus intervals.

Review 6. An overview of drug development with special emphasis on the role of visual electrophysiological testing.

7. Chromatic sensitivity of neurones in area MT of the anaesthetised macaque monkey compared to human motion perception.

8. Target recovery in metacontrast: the effect of contrast.

9. Functional magnetic resonance imaging of early visual pathways in dyslexia.

10. Apparent speed increases at low luminance.