Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT03027310 |
| Other study ID # |
170035 |
| Secondary ID |
17-N-0035 |
| Status |
Completed |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
May 5, 2017 |
| Est. completion date |
March 23, 2022 |
Study information
| Verified date |
August 24, 2023 |
| Source |
National Institutes of Health Clinical Center (CC) |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
Background:
Researchers have some data on how the brain controls movement and why some people have
tremor. But the causes of tremor are not fully known. Researchers want to study people with
tremor to learn about changes in the brain and possible causes of tremor.
Objective:
To better understand how the brain controls movement, learn more about tremor, and train
movement disorder specialists.
Eligibility:
People ages 18 and older with a diagnosed tremor syndrome
Healthy volunteers ages 18 and older
Design:
Participants will be screened with:
- Medical history
- Physical exam
- Urine tests
- Clinical rating scales
- Health questions
- They may have electromyography (EMG) or accelerometry. Sensors or electrodes taped to
the skin measure movement.
Participation lasts up to 1 year.
Some participants will have a visit to examine their tremor more. They may have rating
scales, EMG, and drawing and writing tests.
Participants will be in 1 or more substudies. These will require up to 7 visits. Visits could
include the following:
- EMG with accelerometry
- Small electrodes taped on the body give small electric shocks that stimulate nerves.
- MRI: Participants lie on a table that slides into a cylinder that takes pictures of the
body while they do simple tasks.
- Small electrodes on the scalp record brain waves.
- A cone with detectors on the head measures brain activity while participants do tasks.
- A wire coil held on the scalp gives an electrical current that affects brain activity.
- Tests for thinking, memory, smell, hearing, or vision
- Electrodes on the head give a weak electrical current that affects brain activity.
- Photographs or videos of movement
Participant data may be shared with other researchers.
Description:
Objectives
The purpose of this protocol is to study the phenotypic spectrum and the pathophysiology of
tremor syndromes by performing small behavioral, electrophysiological and neuroimaging
sub-studies. The protocol includes techniques with minimal risk (standard clinical
evaluation, MRI, EEG, peripheral nerve stimulation, single and paired pulse TMS) and certain
sub-studies may involve healthy volunteers. This protocol aims to study neurophysiological
and behavioral outcomes in defined groups of patients with tremor syndromes, to inform future
hypothesis-driven and confirmatory studies, which will be developed and submitted as separate
protocols. For this purpose, we aim to conduct 1) pilot sub-studies, 2) individual patient
investigations, 3) technical development studies.
Study population
We intend to enroll up to 300 patients with essential tremor and other isolated action tremor
syndromes, as well as 150 healthy volunteers.
Design
This is a non-hypothesis driven study involving standardized phenotyping After patients and
healthy volunteers complete a screening visit, patients will undergo a standardized
phenotyping visit including clinical rating scales as well as electrophysiological
tremorworkup. Patient and healthy controls may then be enrolled in sub-studies, and if a
substudy leads to results of interest, a separate protocol will be submitted with a priori
hypotheses, specific study design and power analysis adapted from the pilot or exploratory
sub-studies performed in the present protocol.
Outcome measures
Outcome measures applied in this protocol involve methods for tremor phenotyping such as
clinical rating scales and questionnaires, electrophysiological tremor studies, videotaped
exam, as well as digitizing based tasks. During the sub-studies focused on the
neurophysiological characterization of tremor syndromes, the following outcome measures will
be applied: EMG: we will analyze tremor signals using spectral analyses, coherence analyses,
and in combination with accelerometry, EEG, MEG, and TMS to explore tremor-networks. MRI: we
will analyze measures such as the amplitude of the BOLD signal (fMRI); tractography between
seed and target regions of interest (using DTI); morphometry of brain regions (using VBM);
and different neurotransmitter levels in brain regions of interest (using MRS). EEG and MEG:
we will quantify measures such as corticomuscular coherence, event- or task-related
potentials, synchronization/desynchronization, and coherence between sensors or sources
located close to the brain areas of interest. TMS: we will analyze measures such as MEP
amplitude and central conduction time, as well as measures of cortical excitability and
inhibition paradigms. Behavioral measures: we will quantify measures of voluntary movement
involving tremor, reaction times to initiate movements, EMG patterns, movement kinematics
(position, velocity, acceleration, curvature), eye movement. Actigraphy: We will quantify
continuous recordings of motion sensors involving multiaxial accelerometers and gyroscopes.
Furthermore, we may measure autonomic data during the course of experiments (such as blood
pressure, skin co ductance, and respiratory rate) which would correlate to the outcome
measures.
