It remains an intriguing question why the medial temporal lobe (MTL) can display either attenuation or enhancement of neural activity following repetition of previously studied items. To isolate the role of encoding experience itself, we assessed neural repetition effects in the absence of any ongoing task demand or intentional orientation to retrieve. Experiment 1 showed that the hippocampus and surrounding MTL regions displayed neural repetition suppression (RS) upon repetition of past items that were merely attended during an earlier study phase but this was not the case following re-occurrence of items that had been encoded into working memory (WM). In this latter case a trend toward neural repetition enhancement (RE) was observed, thou...
The present neuroimaging study examines how repetition-related neural attenuation effects differ as ...
SummaryDeclarative memory permits an organism to recognize stimuli that have been previously encount...
& Attention can enhance processing for relevant informa-tion and suppress this for ignored stimu...
It remains an intriguing question why the medial temporal lobe (MTL) can display either attenuation ...
Using fMRI, this study examined the relationship between repetition-related changes in the medial te...
ABSTRACT: Using fMRI, this study examined the relationship between repetition-related changes in the...
The human medial-temporal lobe (MTL) plays a crucial role in memory processing, both in encoding of ...
The extent to which current information is consistent with past experiences and our capacity to reco...
The medial temporal lobe (MTL) is crucial for memory encoding and recognition. The time course of th...
The neural response to stimulus repetition is not uniform across brain regions, stimulus modalities,...
Functional magnetic resonance imaging (fMRI) studies have shown that repetition priming of visual ob...
ABSTRACT: Medial temporal lobe (MTL) structures often respond to stimulus repetition with a reductio...
Neural measures of repetition can result in either repetition suppression or enhancement effects, wi...
Repeated study improves memory, but the underlying neural mechanisms of this improvement are not wel...
Repetition suppression is generally accepted as the neural correlate of behavioural priming and is o...
The present neuroimaging study examines how repetition-related neural attenuation effects differ as ...
SummaryDeclarative memory permits an organism to recognize stimuli that have been previously encount...
& Attention can enhance processing for relevant informa-tion and suppress this for ignored stimu...
It remains an intriguing question why the medial temporal lobe (MTL) can display either attenuation ...
Using fMRI, this study examined the relationship between repetition-related changes in the medial te...
ABSTRACT: Using fMRI, this study examined the relationship between repetition-related changes in the...
The human medial-temporal lobe (MTL) plays a crucial role in memory processing, both in encoding of ...
The extent to which current information is consistent with past experiences and our capacity to reco...
The medial temporal lobe (MTL) is crucial for memory encoding and recognition. The time course of th...
The neural response to stimulus repetition is not uniform across brain regions, stimulus modalities,...
Functional magnetic resonance imaging (fMRI) studies have shown that repetition priming of visual ob...
ABSTRACT: Medial temporal lobe (MTL) structures often respond to stimulus repetition with a reductio...
Neural measures of repetition can result in either repetition suppression or enhancement effects, wi...
Repeated study improves memory, but the underlying neural mechanisms of this improvement are not wel...
Repetition suppression is generally accepted as the neural correlate of behavioural priming and is o...
The present neuroimaging study examines how repetition-related neural attenuation effects differ as ...
SummaryDeclarative memory permits an organism to recognize stimuli that have been previously encount...
& Attention can enhance processing for relevant informa-tion and suppress this for ignored stimu...