Sensory-specific Peripheral Stimulation for Tremor Management

Not Applicable

Recruiting

• Conditions: Parkinson's Disease; Essential Tremor
• Interventions: Device: Peripheral electrical stimulation; Device: Single pulse TMS

• Registration Number: NCT04501133
• Lead Sponsor: Shirley Ryan AbilityLab

Brief Summary

The purpose of this study is to understand the neurophysiological mechanisms of peripheral electrical stimulation (PES) in modulating supraspinal tremorogenic input to motoneurons. For this purpose, the investigators will use transcutaneous PES, high-density electromyography (HD-EMG), transcranial magnetic stimulation (TMS), electroencephalography (EEG), magnetic resonance imaging (MRI), and neuromusculoskeletal modelling. This study will be carried out in both healthy participants and patients with essential tremor (ET) and Parkinson's disease (PD).

Detailed Description

In Experiment A, the investigators will recruit healthy participants without motor disorders and medications influencing brain function (n = 25). The investigators will characterize inhibition of wrist flexors/wrist extensors and first dorsal interossei (FDI) and abductor pollicis brevis (APB) muscles with PES, and also use TMS to stimulate the corresponding areas in the brain and see if the movement can be reduced through PES. HD-EMG will be used to collect data and identify associated motor unit spike trains. Motor-evoked potentials (MEPs) will be recorded with EMG when TMS is targeted to the primary motor cortex. Resting state functional magnetic imaging resonance (rs-fMRI) and high-angular resolution diffusion imaging (HARDI) tractography of the brain will be recorded.

In Experiment B, the investigators will recruit patients with essential tremor (ET) and/or Parkinson's disease (PD) (n = 25 for each pathology). The investigators will repeat the same characterization of inhibition of wrist flexors/wrist extensors and PDI/APB with PES and also use TMS to stimulate corresponding areas in the brain. Additionally, the investigators will test PES conditions as a tremor reduction strategy at the wrist level. The investigators will also test PES conditions at the elbow and shoulder joints as a tremor reduction strategy. Finally, the investigators will observe and characterize the long-term effects (lasting 24h, 48h, and 7 days post stimulation) of PES via coherence between HD-EMG and EEG at the tremor frequency.

Study Timeline

• Study First Submitted: 2020-07-21
• Study First Submitted QC: 2020-08-05
• Study First Posted: 2020-08-06
• Study Start: 2020-09-01
• Status Verified: 2024-08
• Last Update Submitted: 2024-08-01
• Last Update Posted: 2024-08-02
• Primary Completion: 2025-12
• Study Completion: 2025-12

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 180

Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Patients	Single pulse TMS	Participants with Parkinson's Disease or essential tremor will be scanned with MRI and undergo PES and/or single pulse TMS during several visits, each with different stimulation patterns, while HD-EMG and EEG are recorded.
Healthy Participants	Peripheral electrical stimulation	Healthy participants without motor disorders and medications influencing brain functions will be scanned with MRI and undergo PES and/or single pulse TMS during several visits, each with different stimulation patterns, while HD-EMG is recorded.
Patients	Peripheral electrical stimulation	Participants with Parkinson's Disease or essential tremor will be scanned with MRI and undergo PES and/or single pulse TMS during several visits, each with different stimulation patterns, while HD-EMG and EEG are recorded.
Healthy Participants	Single pulse TMS	Healthy participants without motor disorders and medications influencing brain functions will be scanned with MRI and undergo PES and/or single pulse TMS during several visits, each with different stimulation patterns, while HD-EMG is recorded.

Primary Outcome Measures

Name	Time	Method
Changes in Amount of Motor Inhibition	Experiment A: Short-term: before vs. during and at 1 minute after PES. Experiment B: Short-term: before vs. during and at 1 minute after PES. Long-term: persistence of changes at post 24 hours, post 48 hours, and post 1 week after PES.	HD-EMG will be recorded with a 64-channel device (EMG-Quattrocento; 400-channel EMG amplifier, OT Bioelettronica, Italy). The HD-EMG data will be recorded at the wrist level before, during and after muscle contractions. All data will be analyzed offline. Changes in the amount of inhibition will be assessed. The amount of inhibition is calculated as the mean discharge rate across trials and normalized as a percentage of the baseline (100%). To assess the short-term effects, HD-EMG data will be collected before (baseline), during and 1 minute (Post) after PES. Changes in amount of motor inhibition will be measured by comparing the amount of inhibition before (baseline), during and 1 minute after PES (Post). To assess long-term effects, HD-EMG data will be collected at post 24h, post 48h, and post 1 week after PES. The amount of inhibition at 24h, 48h, and 1 week after PES will be compared with the baseline amount of inhibition (before PES).
Changes in motor evoked potentials (MEPs)	Experiment A: Short-term: before vs. during and at 5 minutes after PES. Experiment B: Short-term: before vs. during and at 5 minutes after PES. Long-term: persistence of changes at post 24 hours, post 48 hours, and post 1 week after PES.	To assess the effects of electrical stimulation in motor inhibition, single-pulse TMS will be administered to the contralateral area of the brain while MEPs are recorded from the contralateral site (EMG-Quattrocento; 400-channel EMG amplifier, OT Bioelettronica, Italy). The mean peak-to peak MEP amplitude will be calculated to assess changes in inhibition. To assess the short-term effects, MEP data will be collected before (baseline), during and 5 minutes (Post) after PES. Changes in MEPs will be measured by comparing the MEPs before (baseline), during and 1 minute after PES (Post). To assess long-term effects, MEP data will be collected at post 24h, post 48h, and post 1 week after PES. The MEPs at 24h, 48h, and 1 week after PES will be compared with the baseline MEPs (before PES).
Changes in cortico-muscular coherence in ET and/or PD participants	Experiment A: N/A. Experiment B: Short-term effects, within sessions (before vs. 1 minute after PES. Long-term effects, across sessions (persistence of changes at post 24 hours, post 48 hours, and post 1 week after PES).	EEG will be recorded with a 64-channel whole-head device (NeurOne, Bittium, Kuopio, Finland) and HD-EMG with a 64-channels system (EMG-Quattrocento; 400-channel EMG amplifier, OT Bioelettronica, Italy). The coherence between EEG and HD-EMG signals will be computed to assess supraspinal and spinal inhibition. To assess the short- term effects, EEG and HD-EMG data will be collected before (Pre) and 1 minute (Post) after PES. Changes in cortico-muscular coherence will be measured by comparing the cortico-muscular coherence before (baseline) and 1 minute after PES (Post). To assess long-term effects, EEG and HD-EMG data will be collected at post 24h, post 48h, and post 1 week after PES. The cortico-muscular coherence at 24h, 48h, and 1 week after PES will be compared with the baseline cortico-muscular coherence (before PES).
Changes in kinematics	Experiment A: N/A. Experiment B: Short-term effects, within sessions (before vs. 1 minute after PES). Long-term effects, across sessions (persistence of changes at post 24 hours, post 48 hours, and post 1 week after PES).	Tremor amplitude will be measured with inertial measurement units that quantify variations in wrist angles during tremor. Specifically, the tremor amplitude will be calculated as the mean peak-to-peak amplitude between maximal wrist flexion and wrist extension angles. To assess the short-term effects, tremor amplitude will be collected before (Pre) and 1 minute (Post) after PES. Changes in tremor amplitude will be measured by comparing the tremor amplitude before (baseline) and 1 minute after PES (Post). To assess long-term effects, tremor amplitude will be recorded at post 24h, post 48h, and post 1 week after PES. The tremor amplitude at 24h, 48h, and 1 week after PES will be compared with the baseline tremor amplitude (before PES).

Secondary Outcome Measures

Name	Time	Method
Clinical motor score change	For Experiment A: N/A. For Experiment B: Short-term effects, within sessions (before and after PES). Long-term effects, across sessions (persistence of changes at 24 hours, 48 hours, and 1-week after PES).	The MDS-Unified Parkinson's Disease Rating Scale (MDS-UPDRS) and the Fahn Tolosa Marin (FTM) rating scale are functional scales used by clinicians to assess the functional impairments caused by Parkinson's disease and essential tremor, respectively. The MDS-UPDRS and the FTM scales will be used to assess clinical motor changes induced by the PES. To assess the short-term effects, The MDS-UPDRS or the FTM will be administered before and after PES. Changes in scores will be assessed by comparing the MDS-UPDRS/or FTM scores before (baseline) and after PES (Post). To assess long-term effects, the MDS-UPDRS/or FTM scores will be collected at post 24h, post 48h, and post 1 week after PES. The MDS-UPDRS/or FTM scores at 24h, 48h, and 1 week after PES will be compared with the baseline the MDS-UPDRS/or FTM scores (before PES).
MRI/rs-fMRI connectivity	Experiment A: Baseline and through study completion, an average of 3 months. Experiment B: Baseline and through study completion, an average of 6 months.	Structural connectivity will be assessed with diffusion tensor imaging (DTI). Functional connectivity will be assessed with resting-state MRI (rs-MRI).

Trial Locations

Locations (1)

Shirley Ryan AbilityLab; 🇺🇸 Chicago, Illinois, United States