Repetition suppression (RS) (or functional magnetic resonance imaging adaptation) refers to the reduction in blood oxygen level-dependent signal following repeated presentation of a stimulus. RS is frequently used to investigate the role of face-selective regions in human visual cortex and is commonly thought to be a "localized" effect, reflecting fatigue of a neuronal population representing a given stimulus. In contrast, predictive coding theories characterize RS as a consequence of "top-down" changes in between-region modulation. Differentiating between these accounts is crucial for the correct interpretation of RS effects in the face-processing network. Here, dynamic causal modeling revealed that different mechanisms underlie different ...
Previously several functional magnetic resonance imaging (fMRI) studies point toward the role of per...
We tested for differential brain response to distinct spatial frequency (SF) components in faces. Du...
Several functional neuroimaging studies have observed response adaptation in face-sensitive regions ...
Repetition suppression (RS) (or functional magnetic resonance imaging adaptation) refers to the redu...
I review a number of fMRI studies that investigate the effects of repeating faces on responses in th...
AbstractI review a number of fMRI studies that investigate the effects of repeating faces on respons...
Visual cortical responses are usually attenuated by repetition, a phenomenon known as repetition sup...
Visual cortical responses are usually attenuated by repetition, a phenomenon known as repetition sup...
The repetition of a given stimulus leads to the attenuation of the functional magnetic resonance ima...
Visual cortical responses are usually attenuated by repetition, a phenomenon known as repetition sup...
It has been shown that the probability of face repetitions influences the magnitude of repetition-re...
Stimulus repetition decreases the response of neurons in the monkey inferior temporal (IT) cortex (M...
Stimulus repetition normally causes reduced neural activity in brain regions that process that stimu...
We tested for differential brain response to distinct spatial frequency (SF) components in faces. Du...
Previously several functional magnetic resonance imaging (fMRI) studies point toward the role of per...
Previously several functional magnetic resonance imaging (fMRI) studies point toward the role of per...
We tested for differential brain response to distinct spatial frequency (SF) components in faces. Du...
Several functional neuroimaging studies have observed response adaptation in face-sensitive regions ...
Repetition suppression (RS) (or functional magnetic resonance imaging adaptation) refers to the redu...
I review a number of fMRI studies that investigate the effects of repeating faces on responses in th...
AbstractI review a number of fMRI studies that investigate the effects of repeating faces on respons...
Visual cortical responses are usually attenuated by repetition, a phenomenon known as repetition sup...
Visual cortical responses are usually attenuated by repetition, a phenomenon known as repetition sup...
The repetition of a given stimulus leads to the attenuation of the functional magnetic resonance ima...
Visual cortical responses are usually attenuated by repetition, a phenomenon known as repetition sup...
It has been shown that the probability of face repetitions influences the magnitude of repetition-re...
Stimulus repetition decreases the response of neurons in the monkey inferior temporal (IT) cortex (M...
Stimulus repetition normally causes reduced neural activity in brain regions that process that stimu...
We tested for differential brain response to distinct spatial frequency (SF) components in faces. Du...
Previously several functional magnetic resonance imaging (fMRI) studies point toward the role of per...
Previously several functional magnetic resonance imaging (fMRI) studies point toward the role of per...
We tested for differential brain response to distinct spatial frequency (SF) components in faces. Du...
Several functional neuroimaging studies have observed response adaptation in face-sensitive regions ...