View clinical trials related to Tremor.
Filter by:After having included the most improved patients by DBS among those implanted in Bordeaux Hospital University, and having defined the most active plots on tremor by its prospective grading on Fahn-Tolosa-Marin (FTM) scale and accelerometry, coordinates of active plots and landmarks will be calculated on post-operative imaging. Association between landmarks and active plots coordinates will be modelled with machine-learning algorithms. The aim is to retrieve the position of the VIM on the basis of the landmarks coordinates.
This is an open-label study designed to evaluate the safety, tolerability and efficacy of CAD-1883, a positive allosteric modulator of the SK channel, administered twice daily orally to adult patients with ET. Patients with the diagnosis of ET based on the Movement Disorder Society (MDS) criteria with a documented severity of tremor based on the clinician-administered TETRAS Performance Subscale are eligible to be enrolled in the study.
Prospective, multi-center, single-arm, non-significant risk study designed to evaluate the Cala TWO device. Subjects will be screened for eligibility and fitted with a Cala TWO device. Subjects will wear the device at home for a period of 3 months, during which they will be asked to stimulate their dominant hand twice a day. The stimulation amplitude will be based on each subject's stimulation threshold. Subjects will have in clinic assessments at enrollment, month 1 and 3.
Transcranial alternating current stimulation (tACS) is a noninvasive neuromodulation method that works by passing alternating electric current between electrodes where at least one of them is attached to the head. While tACS applied over the motor cortex at the general applied amplitude (1 mA) and using patch electrodes has been shown to entrain physiological tremor in healthy volunteers, the aim of this study is to test the feasibility of using high-amplitude tACS and to assess the effect of different electrode montages and stimulation sites in entraining physiological tremor. First, 10 subjects (arm 1) will be stimulated with 2 mA current amplitude applied between saline soaked patch square electrodes and comparison will be done between motor cortex stimulation and peripheral cortex stimulation. Then, 10 subjects (arm 2) will be stimulated using focused 4x1 montage with gel-filled cup-electrodes and 5 mA amplitude and comparison will be made between motor cortex and occipital cortex stimulation. Three outcome measurements will be measured during the experiments which are: tremor entrainment, phosphene intensity and phosphene threshold.
Purpose: Rest tremor in Parkinson's disease is notoriously difficult to treat through pharmacological measures, currently only predictably attenuated by the invasive deep brain stimulation surgery. The investigators hope to find some predictable and clinically meaningful attenuation of tremor with targeted use of onabotulinum toxin on muscles involved in creating the tremor. Participants: 16 subjects who meet United Kingdom (UK) brain bank criteria for Parkinson's disease with medically refractory rest tremor of at least 3 cm amplitude. Procedures (methods): Subjects will be blinded to receive either sham saline injection versus onabotulinum toxin injections directed to muscle groups felt to be clinically involved in causing the oscillatory movement of the tremor. Assessment of tremor severity and functional improvement from baseline after injection will occur within group (i.e. each subject will serve as their own control). Hypotheses: 1. (A) Onabotulinumtoxin A significantly attenuates the amplitude of medically-refractory rest tremor of the upper limb in Parkinson's patients as compared to sham injections; as measured by reduction in the Movement Disorders Society Unified Parkinson's Disease Rating Scale (MDS-UPDRS) tremor subscore. 1. (B) Onabotulinumtoxin A significantly improves the limb function of Parkinson's patients with medically-refractory rest tremor of the upper limb as compared to sham injections; as measured by an increase in Action Research Arm Test (ARAT) scores.
The study will investigate Essential Tremor and Parkinson's Disease patients who underwent Magnetic Resonance guided Focused Ultrasound Surgery (MRgFUS). We will evaluate the effect of lesion characteristics on tremor and on quality of life after the procedure as compared with the baseline prior to the procedure.
Action tremor of the arms can be an invalidizing symptom of diseases such as Essential Tremor, Dystonic Tremor, Parkinson's disease and Multiple Sclerosis. In this study we compare the efficacy and safety of two different brain targets for deep brain stimulation (DBS) that both are known to reduce action tremor of the arms. These two targets are called the VIM nucleus of the thalamus (VIM) and the posterior subthalamic area (PSA), which includes the Zona Incerta. Both targets can be reached by one lead (wirh four electrode contact). Patients that are found eligible for DBS because of severe action tremor of the arms are invited to participate. After randomization, half of them are stimulated first in the VIM for 3 months and then in the PSA for 3 months, and the other half first in the PSA and then VIM for 3 months each. Tremor severity is scored on a clinical quantitative scale at baseline and at the end of each of these two 3-month periods, and eventual side-effects are registered. The best target is then selected and after another 6 months scoring is repeated. We intend to provide robust data about whether one of the two targets is superior to the other both regarding ability to reduce tremor efficiently and to avoid or minimize side-effects, or if there is no significant difference between the two targets. We also carefully check the exact position of the active electrode contact in the brain and compare this with efficacy and safety evaluations. Long-term follow-up is planned after 3, 5, 7 and 10 years.
Prospective, multi-center, randomized, controlled study designed to evaluate safety and repeatable effectiveness. Subjects will be randomized 2:1:1 to transcutaneous afferent patterned stimulation (TAPS), sham, or 'no intervention', respectively. Subjects randomized to the TAPS and sham arms will be blinded to their randomization assignments for the first two weeks of participation (controlled phase). After the first two weeks, all subjects will be crossed over to TAPS (open-label phase) for 2 weeks. During study participation, all subjects are to remain on a stable dosage of medications prescribed for the treatment of essential tremor, if applicable.
This is a multicenter, double-blind, placebo-controlled, parallel-group study consisting of a screening period of up to 4 weeks (with the exception of participants on primidone at baseline who will be allowed 6 weeks of screening to allow for safe discontinuation). Screening results from all patients meeting the eligibility requirements will be further assessed by the sponsor medical personnel for final approval of suitability for inclusion in the study. Randomized participants will enter a 4 week double-blind dose-titration treatment period, followed by a 1 week safety follow-up period following the last dose of study medication, and a scheduled follow-up safety telephone call one week later.
The purpose of this study is evaluate the effectiveness and safety of a possible new treatment for Essential Tremor (ET) using external wearable sensors, which have the capability of recording acceleration and Electromyography (EMG). This therapy is called Responsive Deep Brain Stimulation (R-DBS). R-DBS systems will communicate with a computer, and apply stimulation when the computer detects patterns associated with tremor. This detection will suppress pathological activity and improve or alleviate the tremor. Currently, DBS is approved for the treatment of ET; however, stimulation is delivered continuously even when tremor or other symptoms are absent. Continuous DBS can lead to unwanted side effects such as stuttering and gait\balance problems. On the other hand, R-DBS will turn on only if activity associated with ET from the external sensors is detected.