ISSN:
1573-2622
Keywords:
adaptation
;
cat
;
rod
;
cone
;
extracellular recording
;
ganglion cell
;
rod-cone interaction
;
sensitization
Source:
Springer Online Journal Archives 1860-2000
Topics:
Medicine
Notes:
Abstract Extracellular ganglion cell responses were recorded to investigate mechanisms of light adaptation. Monochromatic test spots (575 nm) were projected onto the receptive field center of off-center cells and superimposed on a steady blue-green Ganzfeld background (Schott Filter BG 28), the strength of which was increased in steps of 0.5 log units to adapt rods. Response vs. log intensity functions were determined over a range of 7 log units of test light irradiance at each background level. At higher adaptation levels response thresholds followed the typical Weber function. Surprisingly at lower adaptation levels the sensitivity of the cell increased by about 0.7 log units, most markedly in a range of 1 log unit of moderate light adaptation when the background was changed from dark to the dimmest detectable background (10−5lm/m2). In the dark-adapted state a small off-response of long latency (40–100ms at 102 quanta · s−1 · μm−2) is observed at low rod stimulating test light irradiances. A transition to a cone-dominated transient response of 2 to 5 ms duration occurred at high intensities (105 quanta · s−1 · μm2). At mesopic levels the two responses seem to cancel each other, rendering a delayed off-response that is probably the result of rod-cone interaction. As in psychophysics, saturation can be observed at very high background intensities (106 quanta · s−1 μm−2). These data suggest interactions between rods and cones that determine the sensitivity of cat retinal ganglion cells at low levels of adaptation for suprathreshold stimuli.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00142597
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