Spontaneous activity patterns in human motor cortex replay evoked activity patterns for hand movements

• Published in: Scientific reports Vol. 12; no. 1; p. 16867
• Main Authors: Livne, Tomer, Kim, DoHyun, Metcalf, Nicholas V, Zhang, Lu, Pini, Lorenzo, Shulman, Gordon L, Corbetta, Maurizio
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group 07.10.2022; Nature Publishing Group UK; Nature Portfolio
• Subjects: Activity patterns; Brain mapping; Cortex (motor); Functional magnetic resonance imaging; Hand; Hypotheses; Visual cortex; Wrist
• ISSN: 2045-2322; 2045-2322
• DOI: 10.1038/s41598-022-20866-5

Abstract Spontaneous brain activity, measured with resting state fMRI (R-fMRI), is correlated among regions that are co-activated by behavioral tasks. It is unclear, however, whether spatial patterns of spontaneous activity within a cortical region correspond to spatial patterns of activity evoked by specific stimuli, actions, or mental states. The current study investigated the hypothesis that spontaneous activity in motor cortex represents motor patterns commonly occurring in daily life. To test this hypothesis 15 healthy participants were scanned while performing four different hand movements. Three movements (Grip, Extend, Pinch) were ecological involving grip and grasp hand movements; one control movement involving the rotation of the wrist was not ecological and infrequent (Shake). They were also scanned at rest before and after the execution of the motor tasks (resting-state scans). Using the task data, we identified movement-specific patterns in the primary motor cortex. These task-defined patterns were compared to resting-state patterns in the same motor region. We also performed a control analysis within the primary visual cortex. We found that spontaneous activity patterns in the primary motor cortex were more like task patterns for ecological than control movements. In contrast, there was no difference between ecological and control hand movements in the primary visual area. These findings provide evidence that spontaneous activity in human motor cortex forms fine-scale, patterned representations associated with behaviors that frequently occur in daily life.