Evidence for Segregated and Integrative Connectivity Patterns in the Human Basal Ganglia

Adult Cerebral Cortex Male Connectivity Diffusion weighted imaging (DWI) Brain Mapping White matter Middle Aged Basal Ganglia Functional Laterality 03 medical and health sciences Imaging, Three-Dimensional 0302 clinical medicine Thalamus Neural Pathways Basal ganglia Cortex Image Processing, Computer-Assisted Humans Female
DOI: 10.1523/jneurosci.1486-08.2008 Publication Date: 2008-07-09T16:23:14Z
ABSTRACT
Detailed knowledge of the anatomy and connectivity pattern of cortico-basal ganglia circuits is essential to an understanding of abnormal cortical function and pathophysiology associated with a wide range of neurological and neuropsychiatric diseases. We aim to study the spatial extent and topography of human basal ganglia connectivityin vivo. Additionally, we explore at an anatomical level the hypothesis of coexistent segregated and integrative cortico-basal ganglia loops. We use probabilistic tractography on magnetic resonance diffusion weighted imaging data to segment basal ganglia and thalamus in 30 healthy subjects based on their cortical and subcortical projections. We introduce a novel method to define voxel-based connectivity profiles that allow representation of projections from a source to more than one target region. Using this method, we localize specific relay nuclei within predefined functional circuits. We find strong correlation between tractography-based basal ganglia parcellation and anatomical data from previously reported invasive tracing studies in nonhuman primates. Additionally, we showin vivothe anatomical basis of segregated loops and the extent of their overlap in prefrontal, premotor, and motor networks. Our findings in healthy humans support the notion that probabilistic diffusion tractography can be used to parcellate subcortical gray matter structures on the basis of their connectivity patterns. The coexistence of clearly segregated and also overlapping connections from cortical sites to basal ganglia subregions is a neuroanatomical correlate of both parallel and integrative networks within them. We believe that this method can be used to examine pathophysiological concepts in a number of basal ganglia-related disorders.
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