Different Brain Network Connectomic Relationships Subserve Hand Dexterity During Task Versus Resting States in People with Brain Tumors

Authors

• Timothy F. Boerger, Medical College of Wisconsin
• Leon Taquet, Medical College of Wisconsin
• Kaitlin Goetschel, Medical College of Wisconsin
• Sarah Young, Medical College of Wisconsin
• Jennifer Connelly, Medical College of Wisconsin
• Jeffrey R. Binder, Medical College of Wisconsin
• Brian Schmit, Marquette UniversityFollow
• Max O. Krucoff, Medical College of Wisconsin

Document Type

Article

Publication Date

11-2025

Publisher

Wiley Open Access (an imprint of Wiley)

Source Publication

Brain and Behavior

Source ISSN

2162-3279

Abstract

Purpose

The purpose of this study was to explore different brain network connectomic relationships subserving hand dexterity in patients with contrast-enhancing brain tumors during task and resting states.

Method

We measured hand dexterity, resting state functional connectivity, and task-based functional connectivity in 21 participants with newly diagnosed brain tumors. Hand dexterity was measured using the 9-hole peg test (9HPT), and patient-reported outcomes were assessed with the Duroz Hand Index (DHI).

Findings

We discovered the following: (1) The inability to complete dexterous tasks is most associated with low somatomotor-basal ganglia network connectivity during rest but high somatomotor-basal ganglia network connectivity during tasks; (2) in the subgroup of better dexterous performers, resting somatomotor-salience connectivity is higher in people with poor dexterity—a relationship that holds true in healthy adult subjects from the Human Connectome Project (HCP), suggesting it has fundamental importance; and (3) connectomic measurements were stronger predictors of dexterous performance than classical variables of tumor (i.e., size, grade, or anatomical location).

Conclusions

These data suggest that connectomic correlates of dexterity are different in resting and task-based states. Additionally, our data suggest a threshold level of somatomotor-to-basal ganglia connectivity is required to accomplish dexterous movements, and, in the cases of appropriately preserved somatomotor-to-basal ganglia connectivity, salience-somatomotor connectivity then becomes the dominant connection facilitating performance in a hierarchical fashion. These findings have fundamental implications for both surgical planning and neuromodulation-based rehabilitation.

Comments

Published version. Brain and Behavior, Vol. 15, No. 11 (November 2025): e71032. DOI. This article is © The Author(s). Used with permission. 

This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Recommended Citation

Boerger, Timothy F.; Taquet, Leon; Goetschel, Kaitlin; Young, Sarah; Connelly, Jennifer; Binder, Jeffrey R.; Schmit, Brian; and Krucoff, Max O., "Different Brain Network Connectomic Relationships Subserve Hand Dexterity During Task Versus Resting States in People with Brain Tumors" (2025). Biomedical Engineering Faculty Research and Publications. 716.
https://epublications.marquette.edu/bioengin_fac/716