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Trials / Recruiting

RecruitingNCT06293638

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

Status
Recruiting
Phase
Study type
Observational
Enrollment
55 (estimated)
Sponsor
The Cleveland Clinic · Academic / Other
Sex
All
Age
30 Years – 80 Years
Healthy volunteers
Accepted

Summary

The purpose of this study is to collect electrophysiological data related to functional brain network changes in patients undergoing deep brain stimulation for the treatment of essential tremor. Participants will either 1) have electroencephalography (EEG) scalp electrodes placed, or 2) remain seated with their head inside of a magnetoencephalography (MEG) recording system, as resting-state and task-related data are acquired. Spontaneous electrophysiological activity will be recorded in both the eyes open and eyes closed conditions with the participant seated comfortably. These recordings will be repeated in the DBS OFF and DBS ON states, with the ON state involving specific settings identified as optimal, sub-optimal, or ineffective at achieving tremor control. They will also be repeated following the optional administration non-DBS tremor mitigation techniques, which may include one or more of the following: 1) cooling the limb, 2) oral administration of alprazolam, 3) oral consumption of ethanol (alcohol), or 4) peripheral nerve stimulation.

Detailed 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.

Conditions

Interventions

TypeNameDescription
DRUGAlcoholAlcohol consumption is shown to reduce tremor in individuals with essential tremor. The alcoholic beverage will be dispensed by the a clinician study investigator, and the participant will be administered the alcoholic beverage until their tremor is decreased, as determined by the clinician. Individual sensitivity to the tremor-mitigating effects of alcohol varies, but it is anticipated that only light (1-2 40% ABV drinks, containing 1-2 units of absolute alcohol \[10 mL. or 8 g of pure ethanol\]) consumption will be necessary. Participants will then repeat motor task and data collection while the alcohol is effective at controlling tremor, beginning approximately 15-20 minutes after consumption.
DRUGAlprazolamAlprazolam is shown to reduce tremor in individuals with essential tremor. The primary investigator will select the appropriate dose for the patient (0.5mg for patients with a body weight of up to 75kg, and 0.75mg for participants with a body weight of 75kg and higher). Participants will swallow the drug with a glass of water in the presence of the research team. If participants have not reached a sufficient level of tremor improvement, a subsequent dose of up to a total of 1.0mg of alprazolam per participant will be requested. Participants will then repeat motor task and data collection.
DEVICECold TherapyOne or both of the participant's upper limbs will be wrapped with pre-chilled ice packs or a cold water circulating device such as a cryomanchet (e.g., the Breg PolarCare Glacier), and the skin temperature monitored until it lowers to 15-25°C. Participants will then repeat motor task and data collection while the limb is cool.
PROCEDUREPeripheral Nerve StimulationElectrical stimulation will be applied using techniques similar to those applied during standard somatosensory evoked potential testing. Specifically, adhesive surface electrodes will be placed above the median and radial nerves at the wrist. Stimulation paradigms will be tailored to each participant based on the frequency characteristics of their tremor. Participants will receive between 20-60 minutes of stimulation, then will repeat motor task and data collection. Transcutaneous peripheral nerve stimulation may help mitigate tremor, with effects lasting beyond cessation of stimulation1-3.

Timeline

Start date
2024-03-25
Primary completion
2026-12-31
Completion
2026-12-31
First posted
2024-03-05
Last updated
2025-04-25

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT06293638. Inclusion in this directory is not an endorsement.