TY - JOUR
T1 - Theory of visual attention thalamic model for visual short-term memory capacity and top-down control
T2 - Evidence from a thalamo-cortical structural connectivity analysis
AU - Menegaux, Aurore
AU - Napiorkowski, Natan
AU - Neitzel, Julia
AU - Ruiz-Rizzo, Adriana L.
AU - Petersen, Anders
AU - Müller, Hermann J.
AU - Sorg, Christian
AU - Finke, Kathrin
PY - 2019/7/15
Y1 - 2019/7/15
N2 - In the theory of visual attention (TVA), it is suggested that objects in a visual scene compete for representation in a visual short-term memory (vSTM) store. The race towards the store is assumed to be biased by top-down controlled weighting of the objects according to their task relevance. Only objects that reach the store before its capacity limitation is reached are represented consciously in a given instant. TVA-based computational modeling of participants’ performance in whole- and partial-report tasks permits independent parameters of individual efficiency of top-down control α and vSTM storage capacity K to be extracted. The neural interpretation of the TVA proposes recurrent loops between the posterior thalamus and posterior visual cortices to be relevant for generating attentional weights for competing objects and for maintaining selected objects in vSTM. Accordingly, we tested whether structural connectivity between posterior thalamus and occipital cortices (PT-OC) is associated with estimates of top-down control and vSTM capacity. We applied whole- and partial-report tasks and probabilistic tractography in a sample of 37 healthy adults. We found vSTM capacity K to be associated with left PT-OC structural connectivity and a trend-wise relation between top-down control α and right PT-OC structural connectivity. These findings support the assumption of the relevance of thalamic structures and their connections to visual cortex for top-down control and vSTM capacity.
AB - In the theory of visual attention (TVA), it is suggested that objects in a visual scene compete for representation in a visual short-term memory (vSTM) store. The race towards the store is assumed to be biased by top-down controlled weighting of the objects according to their task relevance. Only objects that reach the store before its capacity limitation is reached are represented consciously in a given instant. TVA-based computational modeling of participants’ performance in whole- and partial-report tasks permits independent parameters of individual efficiency of top-down control α and vSTM storage capacity K to be extracted. The neural interpretation of the TVA proposes recurrent loops between the posterior thalamus and posterior visual cortices to be relevant for generating attentional weights for competing objects and for maintaining selected objects in vSTM. Accordingly, we tested whether structural connectivity between posterior thalamus and occipital cortices (PT-OC) is associated with estimates of top-down control and vSTM capacity. We applied whole- and partial-report tasks and probabilistic tractography in a sample of 37 healthy adults. We found vSTM capacity K to be associated with left PT-OC structural connectivity and a trend-wise relation between top-down control α and right PT-OC structural connectivity. These findings support the assumption of the relevance of thalamic structures and their connections to visual cortex for top-down control and vSTM capacity.
KW - Diffusion tensor imaging
KW - Neural theory of visual attention
KW - Posterior thalamus
KW - Probabilistic tractography
KW - Visual short-term memory capacity
U2 - 10.1016/j.neuroimage.2019.03.052
DO - 10.1016/j.neuroimage.2019.03.052
M3 - Journal article
C2 - 30928688
AN - SCOPUS:85063742246
SN - 1053-8119
VL - 195
SP - 67
EP - 77
JO - NeuroImage
JF - NeuroImage
ER -