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Non-invasive Intermittent Theta Burst Stimulation of the Dorsolateral Prefrontal Cortex in People With Functional Movement Disorders

Movement Disorders Clinical Trial

Official title:
Non-invasive Intermittent Theta Burst Stimulation of the Dorsolateral Prefrontal Cortex in Patients With Functional Movement Disorders

Clinical Trial Summary

Background: Functional movement disorder (FMD) causes involuntary movements, such as spasms, shaking, or jerks. These symptoms are not due to a recognized neurological or medical cause. Researchers want to better understand how the brain works to cause these symptoms. Objective: To test if intermittent theta burst stimulation (iTBS) affects brain areas involved in FMD symptoms. Also, to look at the effect of iTBS on mood and motor symptoms. Eligibility: Right-handed people ages 18-65 who have FMD and participated in protocol 07-N-0190 Design: Participants will have 4 visits. In Visit 1, participants will be screened with: Medical history Physical exam Urine test Questionnaires Visit 1 might also include a brain MRI and functional MRI. The MRI scanner is a cylinder surrounded by a strong magnetic field. They will lie on a table that can slide in and out of the cylinder. For the functional MRI, they will be asked to perform tasks during the MRI scan. Visit 2 will be 1-2 weeks after Visit 1. Visits 2, 3, and 4 will be no more than 48 hours apart. These include: Electromyography: Small electrodes are taped to the skin. Muscle activity is recorded while participants receive magnetic stimulation of the brain. Transcranial magnetic stimulation and iTBS: A wire coil is held on the scalp. A brief electrical current passes through the coil and creates a magnetic pulse to stimulate the brain. During iTBS, participants will sit quietly and watch a nature documentary. They will wear earplugs and a cap. MRI Functional MRI Questionnaires

Clinical Trial Description

Objectives: The purpose of this protocol is to investigate feasibility and safety of intermittent theta burst stimulation (iTBS) targeting the left dorsolateral prefrontal cortex (DLPFC) in patients with functional movement disorders (FMD). We further aim at exploring whether iTBS of the DLPFC modulates amygdala activity, by investigating iTBS effects on resting-state fronto-amygdala connectivity and on amygdala BOLD response to valenced stimuli. Study population: FMD patients (N=6), aged 18-65 years, admitted at the Human Motor Control Section (HMCS) clinic, who have completed protocol 07-N-0190. Design: Participants will undergo four outpatient visits. On Visit #1 (baseline), patients will undergo a screening session to assess their eligibility to participate in the current study. They will undergo neurological and psychiatric assessment, as well as structural and functional magnetic resonance imaging. Intermittent TBS will be performed on three separated visits (Visit #2, #3 and #4; iTBS1, iTBS 2 and iTBS 3). During each visit, participants will receive three iTBS sessions over 1-hour, with a 15-minute interval between sessions. Each session will last 190 seconds and a total of 600 pulses will be delivered. Magnetic field intensity will be set at 120% of that participants observed daily resting motor threshold. The target will be identified using the neuronavigation system Brainsight. Following each iTBS visit, behavioral and functional imaging data will be collected. Outcome measures: Our primary outcomes will be to evaluate the safety and feasibility of different doses of iTBS of the left DLPFC in patients with FMD. In addition, in order to investigate amygdala engagement by DLPFC iTBS, the following exploratory outcomes will be analyzed: (1) Amygdala BOLD signal change in response to valenced stimuli, from baseline to iTBS3; (2) Amygdala BOLD signal change in response to valenced stimuli, from baseline to each timepoint (iTBS1- iTBS3), for each valence stimuli; (3) Change in fronto-amygdalar resting state functional connectivity, from baseline to iTBS3 (z-score); (4) Change in fronto-amygdalar resting state functional connectivity from baseline to each time point (iTBS1- iTBS3); (5) Change in the valence and arousal subjective levels, using the self-assessment Manikin, from baseline to each time point (iTBS1- iTBS3); (6) Correlations of percent amygdala BOLD signal change with changes in arousal and valence level; (7) Change in the scores on the simplified version of the FMD-RS from pre- to post treatment, for each timepoint. ;

Study Design

Related Conditions & MeSH terms

Clinical Trial Details
NCT number NCT03263013
Study type Observational
Source National Institutes of Health Clinical Center (CC)
Contact
Status Completed
Phase
Start date March 29, 2018
Completion date February 5, 2020
View Details
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