Using functional magnetic resonance imaging, the present study examined whether the comparison distance effect (CDE) and the priming distance effect (PDE) in number processing had the same underlying neural mechanisms. 24 healthy participants completed a number comparison task and a number priming task in the scanner. Imaging data were examined for brain regions selected based on a meta-analysis of previous studies of number processing. Results revealed robust CDE and PDE at both behavioral and neural levels. The CDE had a significant hemodynamic signature in the right parietal cortex but not in the left parietal cortex, although a direct test of this hemispheric laterality did not reach statistical significance. In contrast, the PDE showed...
One of the most frequently used markers in research on numerical cognition is the distance effect. R...
When participants are asked to compare two stimuli, responses are slower for stimuli close to each o...
International audienceThe time to compare two numbers shows additive effects of number notation and ...
Using functional magnetic resonance imaging, the present study examined whether the comparison dista...
Behavioral and neurophysiological studies of numerical comparisons have shown a "distance effect," w...
In number comparison tasks, the performance is better when the distance between the numbers to compa...
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
In number comparison tasks, the performance is better when the distance between the numbers to compa...
Numerical magnitudes are known to be processed in areas around the intraparietal sulci of the brain....
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
Behavioral and neurophysiological studies of numerical comparisons have shown a “distance effect,” w...
Neuroimaging studies of number comparison have consistently found activation in the intraparietal su...
Neuroimaging studies of number comparison have consistently found activation in the intraparietal su...
One of the most frequently used markers in research on numerical cognition is the distance effect. R...
When participants are asked to compare two stimuli, responses are slower for stimuli close to each o...
International audienceThe time to compare two numbers shows additive effects of number notation and ...
Using functional magnetic resonance imaging, the present study examined whether the comparison dista...
Behavioral and neurophysiological studies of numerical comparisons have shown a "distance effect," w...
In number comparison tasks, the performance is better when the distance between the numbers to compa...
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
In number comparison tasks, the performance is better when the distance between the numbers to compa...
Numerical magnitudes are known to be processed in areas around the intraparietal sulci of the brain....
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
Behavioral and neurophysiological studies of numerical comparisons have shown a “distance effect,” w...
Neuroimaging studies of number comparison have consistently found activation in the intraparietal su...
Neuroimaging studies of number comparison have consistently found activation in the intraparietal su...
One of the most frequently used markers in research on numerical cognition is the distance effect. R...
When participants are asked to compare two stimuli, responses are slower for stimuli close to each o...
International audienceThe time to compare two numbers shows additive effects of number notation and ...