Abstract
Whereas subcortical structures such asthe basal ganglia have been widely explored in relationto motor control, recent evidence suggests thattheir mechanisms extendtothe domain of attentional switching. We here investigatedthe subcortical involvement in reward related top-down control of visual alpha-band oscillations (8-13 Hz), which have been consistently linked to mechanisms supporting the allocation of visuospatial attention. Given that items associated with contextual saliency (e.g., monetary reward or loss) attract attention, it is not surprising that the acquired salience of visual items further modulates. The executive networks controlling such rewarddependent modulations of oscillatory brain activity have yet to be fully elucidated. Although such networks have been explored in terms of corticocortical interactions, subcortical regions are likely to be involved. To uncover this, we combined MRI and MEG data from 17 male and 11female participants, investigating whether derived measures of subcortical structural asymmetries predict interhemispheric modulation of alpha power during a spatial attention task. We show that volumetric hemispheric lateralization of globus pallidus (GP) and thalamus (Th) explains individual hemispheric biases in the ability to modulate posterior alpha power. Importantly, for the GP, this effect became stronger when the value saliency parings in the task increased. Our findings suggest that the GP and Th in humans are part of a subcortical executive control network, differentially involved in modulating posterior alpha activity in the presence of saliency. Furtherinvestigation aimed at uncoveringtheinteraction between subcortical and neocortical attentional networks would provide useful insight in future studies.
Original language | English |
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Pages (from-to) | 9221-9236 |
Number of pages | 16 |
Journal | Journal of Neuroscience |
Volume | 39 |
Issue number | 46 |
DOIs | |
Publication status | Published - 13 Nov 2019 |
ASJC Scopus subject areas
- General Neuroscience
Keywords
- Attention
- Basal Ganglia
- Magnetic Resonance Imaging
- Magnetoencephalography
- Reward