Functional Brain Network Changes in Patients Undergoing Deep Brain Stimulation for Essential Tremor

Description

Electrophysiological data from participants will be collected during electroencephalography (EEG) or magnetoencephalography (MEG) procedures. The EEG or MEG experiments will also include recordings from the DBS system that may be synchronized to externally recorded signals (e.g., MEG, EEG, EMG, accelerometry) via gentle tap-induced motion artifacts, and/or by applying a small, barely perceptible electrical current at the skin over the DBS system with use of a transcutaneous electrical nerve stimulation (TENS) unit.

It is hypothesized that the chronic, electrical stimulation of the target region has both local and circuit-wide effects, the net effect of which is to disrupt the pathophysiological neural activity present across both cortical and subcortical brain regions that and thought to underlie disease manifestation (i.e., tremor). By systemically characterizing the pathways involved in propagating tremor-related activity as well as mediating treatment-related benefits, the investigators hope to identify potential new therapeutic targets or treatment paradigms to further optimize tremor control in this population.