View clinical trials related to Tremor.
Filter by:Background: Essential tremor is when a person has tremor, but no other neurological symptoms. Dystonic tremor is when a person also has dystonia. Dystonia is a condition in which muscle contraction causes changes in posture. Researchers do not fully know what areas of the brain cause these tremors, or how the types differ. They also do not know what tests can identify the differences. Objective: To look at differences between essential tremor and dystonic tremor. Eligibility: People ages 18 and older with or without tremor Design: Participants will be screened with medical history, physical exam, and urine tests. Those with tremor will complete questionnaires about how tremor affects them. The screening and study visits can be done on the same day or on separate days. Participants will have 1 or 2 study visits. These include magnetic resonance imaging (MRI) and tremor testing. For MRI, participants will lie on a table that slides in and out of a cylinder that takes pictures. Sensors on the skin measure breathing, heart rate, and muscle activity. This takes about 2 hours. Tremor testing will include transcranial magnetic stimulation (TMS), electrical stimulation of the fingers, doing a movement task, and recording of tremor movements. For TMS, two wire coils will be held on the scalp and a brief magnetic field will be produced. A brief electrical current will pass through the coils. For the other tests, small sticky pad electrodes will be put on the skin. Participants will move their hand when they hear a sound. They will get weak electrical shocks to their fingers. These tests will take 3-4 hours. Participants can take part in either or both parts of the study.
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.
To explore the effect of cathodal tsDCS vs sham tsDCS in primary orthostatic tremor. The investigators hypothesize that cathodal tsDCS but not sham tsDCS would be able to restore both motor and sensory pathways of the spinal cord leading to functional improvements.
This study is a three-part, multicenter, Phase 2a study to evaluate the efficacy, safety, tolerability, and pharmacokinetics of SAGE-217 in adult participants with essential tremor.
Deep Brain Stimulation (DBS) is the gold standard treatment for Essential Tremor (ET). ET is a movement disorder which causes the arms, feet, fingers, head or voice to involuntarily shake. The DBS surgical procedure involves implanting an electrode deep within the brain which blocks damaging signals that cause the tremor. Essential Voice Tremor (EVT) is the vocal manifestation of ET and a number of individuals have both ET and EVT, and when these patients are implanted for their ET, their EVT symptoms are often also mitigated. This study aims to quantify the effects of DBS on EVT by testing on these ET+EVT patients. In addition to this, we hope to determine which hemisphere of the brain is responsible for larynx control: left or right.
The purpose of this study is to investigate the hypothesis that alternating DBS parameters on a weekly basis will prevent tolerance to stimulation and thus waning of benefit, compared with non-alternating stimulation. The primary endpoint will be preserved tremor control with the alternating group compared with standard treatment using the Tremor Research Group Essential Tremor Rating Assessment Scale (TETRAS). Key secondary endpoints will be preserved activities of daily living measures as well as preserved tremor control as quantified by motion sensor data. This study has one primary aim: To determine if alternating DBS stimulation parameters on a weekly basis will be superior at preserving tremor control compared with usual stimulation (non-alternating stimulation) in ET patients with VIM DBS.
To compare the efficacy of botulinum toxin (BoNT) injections in forearm flexors plus extensor muscles versus flexors alone for the treatment of essential hand tremor (ET).
The main objective of this study is to identify the superficial muscle groups involved in gene-related tremor and assess the reduction in the intensity of the tremor after transient electrical stimulation.
The major purpose of the Stage 1 is to study the safety and tolerability of the proposed dosage regimen of the study drug. The form of cannabidiol (CBD) used in this study is GWP42003, supplied by GW Pharmaceuticals. The dosage regime is based on their experience. This is an open label study in 10 subjects, during which the dose is gradually increased to the manufacturers recommended target dose, with tolerability being evaluated at each dose level. Based on the response of subjects in the Stage 1, a target dose is determined for the next stage. Standardized tools will be administered to study both tolerability and efficacy. Efficacy assessments are simply explorative, and are done to look for an effect that warrants specific or different evaluation in the next stage.
The purpose of this study is to determine the effects of Low Frequency Repetitive Transcranial Magnetic Stimulation (LF r-TMS) of the pre-Supplementary Motor Area (pre-SMA) on tremor as measured by the tremor rating scale (TRS) in patients with Essential Tremor (ET). Hypothesis: Pre-SMA LF r-TMS will result in a >30% reduction in tremor as measured by the TRS. Another purpose of this study is to identify the mechanism by which LF r-TMS of the pre-SMA effects tremor in patients with ET. Hypothesis: Inhibition of the pre-SMA by LF r-TMS improves tremor in ET by normalizing pre-SMA output, and improving motor control, as determined shortening of the delay in the second agonist burst, seen in ET patients. At conclusion of this study expect to have sufficient pilot data to justify larger pivotal trials designed to establish the efficacy of pre-SMA r-TMS in ET.