Subthalamic-Cortical Network Reorganization during Parkinson's Tremor

Tremor, a common and often primary symptom of Parkinson's disease, has been modeled with distinct onset and maintenance dynamics. To identify the neurophysiologic correlates of each state, we acquired intraoperative cortical and subthalamic nucleus recordings from 10 patients (9 male, 1 female) performing a naturalistic visual-motor task. From this task, we isolated short epochs of tremor onset and sustained tremor. Comparing these epochs, we found that the subthalamic nucleus was central to tremor onset, as it drove both motor cortical activity and tremor output. Once tremor became sustained, control of tremor shifted to cortex. At the same time, changes in directed functional connectivity across sensorimotor cortex further distinguished the sustained tremor state.

Automated summary

The study discovered distinct neurophysiological characteristics of tremor onset and maintenance in Parkinson's disease. The subthalamic nucleus plays a key role in tremor onset, while control of tremor shifts to cortex in sustained tremor state. Furthermore, changes in directed functional connectivity across sensorimotor cortex distinguish the sustained tremor state.