Population-level Task-evoked Functional Connectivity

Functional magnetic resonance imaging (fMRI) is a non-invasive and in-vivo imaging technique essential for measuring brain activity. Functional connectivity is used to study associations between brain regions either at rest or while study subjects perform tasks. In this paper, we propose a rigorous definition of task-evoked functional connectivity at the population level (ptFC). Importantly, our proposed ptFC is interpretable in the context of task-fMRI studies. An algorithm for estimating ptFC is provided. We present the performance of the proposed algorithm compared to existing functional connectivity estimation approaches using simulations. Lastly, we apply the proposed framework to estimate task-evoked functional connectivity in a motor-task study from the Human Connectome Project. We show that the proposed algorithm identifies associations regions of the brain related to the performance of motor tasks as expected.