<p>Figure 5 illustrates the selective tuning functions within the frontoparietal ROIs averaged across the three blocks of scanning acquisition. The right VLPFC followed the steepest tuning function and there was a lateralisation effect favouring greater response to targets in the right hemisphere ROIs. Error bars display the standard error of the mean.</p
<p>White bars represents the spatial task vs. control task, gray bars represents the temporal task v...
<p>Error bars depict standard error of means. HSF = high spatial frequency distracters, LSF = low sp...
<p>Contralateral preference visualized by t-tests for all voxels activated by SO and VS (p<0.005, RF...
<p>Figure 6a illustrates the tuning functions from the right VLPFC in the first acquisition block, w...
<p>Representative single voxel tuning curves illustrate differences in the spatial tuning across vis...
<p>Bar graphs: The ordinates show the regression-coefficients with standard errors for each ROI. The...
<p>A: Distribution of number of voxels that were found to be tuned for one of the four conditions. H...
<p>(a) The difference in the delta functional connectivity in the left and right MT regions between ...
Spatial selective attention is widely considered to be right hemisphere dominant. Previous functiona...
<p>(A) The medial view of the posterior part of right and left hemisphere is shown on an inflated co...
<p>ROIs are shown overlaid on a single subject template included in SPM5 (left). The graphs on the r...
The intraparietal sulcus (IPS) is critical for resolving stimulus competition. Its activity is modul...
<div><p>(A–D) Directional tuning during pole control (A), brain control with arm movements (tuning a...
<p>Contralateral preference visualized by t-tests for all voxels activated by easy search and diffic...
<p>The figure shows contrast estimates for each of the EYE_PLAY, HAND_PLAY and OBS conditions (again...
<p>White bars represents the spatial task vs. control task, gray bars represents the temporal task v...
<p>Error bars depict standard error of means. HSF = high spatial frequency distracters, LSF = low sp...
<p>Contralateral preference visualized by t-tests for all voxels activated by SO and VS (p<0.005, RF...
<p>Figure 6a illustrates the tuning functions from the right VLPFC in the first acquisition block, w...
<p>Representative single voxel tuning curves illustrate differences in the spatial tuning across vis...
<p>Bar graphs: The ordinates show the regression-coefficients with standard errors for each ROI. The...
<p>A: Distribution of number of voxels that were found to be tuned for one of the four conditions. H...
<p>(a) The difference in the delta functional connectivity in the left and right MT regions between ...
Spatial selective attention is widely considered to be right hemisphere dominant. Previous functiona...
<p>(A) The medial view of the posterior part of right and left hemisphere is shown on an inflated co...
<p>ROIs are shown overlaid on a single subject template included in SPM5 (left). The graphs on the r...
The intraparietal sulcus (IPS) is critical for resolving stimulus competition. Its activity is modul...
<div><p>(A–D) Directional tuning during pole control (A), brain control with arm movements (tuning a...
<p>Contralateral preference visualized by t-tests for all voxels activated by easy search and diffic...
<p>The figure shows contrast estimates for each of the EYE_PLAY, HAND_PLAY and OBS conditions (again...
<p>White bars represents the spatial task vs. control task, gray bars represents the temporal task v...
<p>Error bars depict standard error of means. HSF = high spatial frequency distracters, LSF = low sp...
<p>Contralateral preference visualized by t-tests for all voxels activated by SO and VS (p<0.005, RF...