2002
DOI: 10.1017/s0952523802195095
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Contrast adaptation in retinal and cortical evoked potentials: No adaptation to low spatial frequencies

Abstract: Contrast adaptation occurs in both the retina and the cortex. Defining its spatial dependence is crucial for understanding its potential roles. We thus asked to what degree contrast adaptation depends on spatial frequency, including cross-adaptation. Measuring the pattern electroretinogram (PERG) and the visual evoked potential (VEP) allowed separating retinal and cortical contributions. In ten subjects we recorded simultaneous PERGs and VEPs. Test stimuli were sinusoidal gratings of 98% contrast with spatial … Show more

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Cited by 29 publications
(13 citation statements)
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“…Such adaptation selectively reduces perceptual sensitivity for stimuli with orientations similar to the adaptor, especially when both have high spatial frequency (Blakemore and Campbell 1969;Heinrich and Bach 2002). We therefore reasoned that if microsaccadic inhibition relies on similar detection mechanisms as explicit perception, then it should also be weakened in response to stimuli with adapted orientations, in particular for high SFs.…”
Section: Experiments 2 and 3: Orientation-specific Adaptationmentioning
confidence: 99%
“…Such adaptation selectively reduces perceptual sensitivity for stimuli with orientations similar to the adaptor, especially when both have high spatial frequency (Blakemore and Campbell 1969;Heinrich and Bach 2002). We therefore reasoned that if microsaccadic inhibition relies on similar detection mechanisms as explicit perception, then it should also be weakened in response to stimuli with adapted orientations, in particular for high SFs.…”
Section: Experiments 2 and 3: Orientation-specific Adaptationmentioning
confidence: 99%
“…However, the origin and underlying mechanisms may not be the same as the judgment of perceived focus occurs in the visual cortex whereas contrast adaptation may occur at various earlier stages in the visual processing. There are also reports suggesting that the contrast adaptation occurs at the level of the retina (Heinrich & Bach, 2002;Ohlendorf & Schaeffel, 2009). If the contrast adaption occurs mainly in the retina, there may not be a transfer to the fellow eye or spread to periphery, which is in agreement with our results.…”
Section: Peripheral and Fellow Eye Changesmentioning
confidence: 94%
“…For instance, in some studies the amplitude reduction is considered a result of sensory adaptation (Heinrich and Bach, 2001;Heinrich and Bach, 2002). The relative effect of sensory adaptation and habituation cannot be separated with the methods commonly applied in migraine habituation studies (Omland et al, 2011).…”
Section: Progressive Amplitude Changes During Recoding Of Vepmentioning
confidence: 99%