Active clinical trials for "Essential Tremor"

This study will evaluate the safety and efficacy of T2000 when used to treat patients with moderate to severe essential tremor over a 20 week period. Essential tremor (ET) is a common form of involuntary shaking not related to Parkinson's disease. The medications that are currently used to treat ET work in a small proportion of patients and provide only partial improvement in symptoms. Use of these current medications is also limited by side-effects in many patients. T2000 is a medication currently under development for the treatment of essential tremor. Although T2000 is a new medication, it belongs to a class of medications that has been used for many years for the treatment of a variety of medical conditions. In previous studies, T2000 appeared to be effective in controlling symptoms of ET and some patients with severe ET had major improvements in tremor. T2000 was well tolerated for periods up to 20 days and the minimal side-effects seen were those that would be expected for medications in this class. The current study will evaluate the safety and efficacy of T2000 in patients with moderate to severe essential tremor. Patients will receive doses of T2000 beginning at 600 mg a day, followed by 800 mg a day and up to 1000 mg a day. The total duration of treatment will be 20 weeks. Patient's tremor and neurological examination will be monitored throughout the study. The response to T2000 will be determined by comparing the severity of tremor while patients are receiving T2000 compared to the tremor observed without active medication.

The purpose of this study is to determine if Zonisamide is effective in reducing tremors in patients with Essential Tremor.

A global post approval study to collect safety and effectiveness data related to ExAblate Neuro for the treatment of certain disorders such as Essential Tremor, Parkinson's Movement Disorders, or Neuropathic Pain within the thalamus and/or pallidum.

A Study to Evaluate the Effectiveness and Safety of ExAblate Transcranial MRgFUS Thalamotomy Treatment of Medication Refractory Essential Tremor Subjects The objective of this prospective, single-arm study is to test the efficacy of treatment using the ExAblate Transcranial System and to further demonstrate safety in medication-refractory tremor inpatients with essential tremor (ET). The Indications for Use claim for this system is as follows: Treatment of medication-refractory tremor in patients with essential tremor.

This study will evaluate the safety and efficacy of T2000 when used to treat patients with moderate to severe essential tremor over an 18 month period.

This study aims to develop a way of objectively measuring the neurological disorders, Essential Tremor (ET) and Dystonia, and whether it is possible to quantify ET and dystonia using a measurement system in a virtual reality (VR) environment.

Deep brain stimulation (DBS) is an FDA approved, and widely used method for treating the motor symptoms of Parkinson's disease (PD), Essential Tremor (ET), Dystonia and Obsessive Compulsive disorder (OCD). Over 100,000 patients worldwide have now been implanted with DBS devices. Current approved methods to locate the DBS target regions in the brain use a combination of stereotactic imaging techniques and measurements of the electrical activity of brain cells. As part of the standard clinical technique, electrical data are collected from individual nerve cells. The target brain region emits unique electrical signals. At certain brain locations, during DBS surgery, additional electrical data that are generated in response to sound will be collected. Regions of the brain that have a decreased response to repeated sound (auditory gating) may be important DBS targets for improving thinking. The aims are (i) during DBS surgery, in addition to EEG, use microelectrodes in the brain to find brain regions, along the normal path to the DBS target, where auditory gating occurs and then (ii) determine if stimulation of the identified region(s) alters auditory gating measured by EEG. Also an additional aim (iii) is to measure electrical activity at the scalp with EEG to characterize auditory gating in patients before and after DBS surgery and also a healthy control population.

Programming Deep Brain Stimulation for the treatment of Essential Tremor can be a time intensive process. Using an atlas created using functional tremor responses in the operating room to determine the optimal settings would lead to a faster response for the patient and improved quality of life.

Essential tremor (ET) is a low-mortality, though truly burdensome and debilitating condition which is known to be the second most common movement disorder of the adult population only after restless legs syndrome. The prevalence of the disorder in all age groups has been estimated to be 0.9%. Repetitive transcranial magnetic stimulation (rTMS) is an almost safe technique which has been used in diagnosis and treatment of many neurologic and psychiatric conditions. Recent studies have shown that cerebellum has a significant role in development of ET and that rTMS could exert therapeutic effects on its motor symptoms. In this study researchers will recruit at least 30 subjects among patients visiting at the Specialty Clinic of Mashhad Medical University according to researchers exclusion and inclusion criteria and after signing a written informed consent, will randomly be assigned to either real or sham rTMS. On the real rTMS arm, patients will be treated with 900 pulses of 1 Hz rTMS on 90% of resting motor threshold (RMT) delivered over each cerebellar hemisphere for 5 consecutive days and sham treatment will be performed with the same protocol using a small device placed on the TMS coil (not visible to the patients) producing electrical stimulation (less than 3 mili amperes), to simulate the sensation of real TMS. Subject's ear will be protected with earplugs during both real and sham stimulations. After 2 months of follow-up, patients will undergo crossover and receive the other treatment as described above. Patients would be assessed using Fahn-Tolosa-Marin scale at the baseline and again on days 5, 12, and 30 after each real or sham treatment session by a blinded researcher. Data will be analysed by another researcher who is also blind.

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.