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Insula-cingulate structural and functional connectivity: an ultra-high field MRI study

Matthew A. Cormie, Batu Kaya, Georgia E. Hadjis, Pedram Mouseli, Massieh Moayedi

2023Cerebral Cortex27 citationsDOIOpen Access PDF

Abstract

The insula and the cingulate are key brain regions with many heterogenous functions. Both regions are consistently shown to play integral roles in the processing of affective, cognitive, and interoceptive stimuli. The anterior insula (aINS) and the anterior mid-cingulate cortex (aMCC) are two key hubs of the salience network (SN). Beyond the aINS and aMCC, previous 3 Tesla (T) magnetic resonance imaging studies have suggested both structural connectivity (SC) and functional connectivity (FC) between other insular and cingulate subregions. Here, we investigate the SC and FC between insula and cingulate subregions using ultra-high field 7T diffusion tensor imaging (DTI) and resting-state functional magnetic resonance imaging (rs-fMRI). DTI revealed strong SC between posterior INS (pINS) and posterior MCC (pMCC), and rs-fMRI revealed strong FC between the aINS and aMCC that was not supported by SC, indicating the likelihood of a mediating structure. Finally, the insular pole had the strongest SC to all cingulate subregions, with a slight preference for the pMCC, indicative of a potential relay node of the insula. Together these finding shed new light on the understanding of insula-cingulate functioning, both within the SN and other cortical processes, through a lens of its SC and FC.

Topics & Concepts

InsulaFunctional magnetic resonance imagingCingulate cortexPosterior cingulateNeuroscienceAnterior cingulate cortexInsular cortexDiffusion MRIPsychologySalience (neuroscience)Default mode networkCognitionMagnetic resonance imagingMedicineRadiologyCentral nervous systemFunctional Brain Connectivity StudiesAdvanced Neuroimaging Techniques and ApplicationsNeural dynamics and brain function