Subcortical connectivity of the executive - control network mirrors that seen in the monkey (Selemon and Goldman - Rakic, 1988) and does not extend to autonomic control sites.
Not exact matches
Seed - based, resting - state
connectivity analysis revealed that the site of stimulation in both patients was at the core of a large - scale distributed network linking aMCC to the frontoinsular and frontopolar as well as some
subcortical regions.
Applications in clinical neuroscience have been particularly useful, and have provided insights into systems - level cortical and
subcortical anomalies of functional
connectivity in neurodevelopmental disorders such as attention - deficit / hyperactivity disorder (ADHD, Castellanos and Proal, 2012) and schizophrenia (Yu et al., 2012).
For example, it is now known that
subcortical areas are more strongly functionally coupled with primary sensory, association, and paralimbic areas in children, whereas adults show stronger cortico - cortical functional
connectivity between paralimbic, limbic, and association areas (Supekar et al., 2009).