Modafinil alters the functional connectivity of distinct thalamic nuclei with the neocortex

Modafinil promotes wakefulness and enhances cognitive function through mechanisms and neural effects that are still partially unknown. Several studies have shown that the compound alters the functional cortical architecture. In contrast, its influence on subcortical regions and thalamocortical connections, which are crucial for modulating neocortical connectivity, remains unexplored. The acute modulation of thalamo-cortical connectivity was assessed in two groups of participants who received either a single 100 mg dose of modafinil (N = 25) or a placebo (N = 25). Magnetic Resonance Imaging (MRI) was used to parcel the thalamus into its constituent nuclei, which served as seeds for voxel-wise resting state functional connectivity analyses. Additionally, maps of nuclei-specific functional reorganization were compared to those of receptor/transporter expression to assess their spatial overlaps. Modafinil, but not placebo, altered the connectivity of three thalamic nuclei. Specifically, the medial pulvinar nuclei showed increased connectivity with cortical regions of the Sensorimotor and Salience/Ventral Attention (SVAN) Networks. These functional changes spatially overlapped with the distribution of the norepinephrine transporter (NET). Additionally, the anterior and inferior pulvinar complex exhibited enhanced connectivity with the insular and supramarginal regions of the SVAN and superior frontal area of the Default Mode Network (DMN). However, unlike the medial pulvinar, these effects were not spatially linked to the expression of any specific receptor or transporter. Finally, the ventro-lateral anterior complex exhibited increased connectivity with the posterior region of the DMN and the Fronto-Parietal Control Network, along with decreased connectivity to the premotor cortex. The topography of these functional modifications mainly overlaps with the distribution of glutamatergic and serotonergic receptors. In summary, our findings highlight modafinil's influence on thalamocortical circuits, emphasizing the role of higher-order pulvinar nuclei and ventro-lateral anterior complex.