Integrative and Network-Specific Connectivity of the Basal Ganglia and Thalamus Defined in Individuals.

Greene; Deanna J;Marek; Scott;Gordon; Evan M;Siegel; Joshua S;Gratton; Caterina;Laumann; Timothy O;Gilmore; Adrian W;Berg; Jeffrey J;Nguyen; Annie L;Dierker; Donna;Van; Andrew N;Ortega; Mario;Newbold; Dillan J;Hampton; Jacqueline M;Nielsen; Ashley N;McDermott; Kathleen B;Roland; Jarod L;Norris; Scott A;Nelson; Steven M;Snyder; Abraham Z;Schlaggar; Bradley L;Petersen; Steven E;Dosenbach; Nico U F;

doi:S0896-6273(19)30975-4

Integrative and Network-Specific Connectivity of the Basal Ganglia and Thalamus Defined in Individuals.

Clicks: 278

ID: 74165

2019

Article Quality & Performance Metrics

Overall Quality Improving Quality

0.0 /100

Combines engagement data with AI-assessed academic quality

Reader Engagement Steady Performance

80.4 /100

276 views

224 readers

AI Quality Assessment

Not analyzed

Abstract

EN
- Turkish
- Spanish
- Portuguese
- Arabic
- Chinese
- French
- German
- Indonesian
- Russian
- Thai

The basal ganglia, thalamus, and cerebral cortex form an interconnected network implicated in many neurological and psychiatric illnesses. A better understanding of cortico-subcortical circuits in individuals will aid in development of personalized treatments. Using precision functional mapping-individual-specific analysis of highly sampled human participants-we investigated individual-specific functional connectivity between subcortical structures and cortical functional networks. This approach revealed distinct subcortical zones of network specificity and multi-network integration. Integration zones were systematic, with convergence of cingulo-opercular control and somatomotor networks in the ventral intermediate thalamus (motor integration zones), dorsal attention and visual networks in the pulvinar, and default mode and multiple control networks in the caudate nucleus. The motor integration zones were present in every individual and correspond to consistently successful sites of deep brain stimulation (DBS; essential tremor). Individually variable subcortical zones correspond to DBS sites with less consistent treatment effects, highlighting the importance of PFM for neurosurgery, neurology, and psychiatry.

Reference Key	greene2019integrativeneuron Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	Greene, Deanna J;Marek, Scott;Gordon, Evan M;Siegel, Joshua S;Gratton, Caterina;Laumann, Timothy O;Gilmore, Adrian W;Berg, Jeffrey J;Nguyen, Annie L;Dierker, Donna;Van, Andrew N;Ortega, Mario;Newbold, Dillan J;Hampton, Jacqueline M;Nielsen, Ashley N;McDermott, Kathleen B;Roland, Jarod L;Norris, Scott A;Nelson, Steven M;Snyder, Abraham Z;Schlaggar, Bradley L;Petersen, Steven E;Dosenbach, Nico U F;
Journal	neuron
Year	2019
DOI	S0896-6273(19)30975-4 Searching for DOI...
URL	https://doi.org/S0896-6273(19)30975-4
Keywords	Functional connectivity deep brain stimulation thalamus brain networks resting state basal ganglia precision functional mapping subcortex

Citations

No citations found. To add a citation, contact the admin at info@scimatic.org

Comments

Login to comment Register

No comments yet. Be the first to comment on this article.