View clinical trials related to Essential Tremor.
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Essential tremor is an incurable, degenerative brain disorder that results in increasingly debilitating tremor, and afflicts an estimated 7 million people in the US. In one study, 25% of essential tremor patients were forced to change jobs or take early retirement because of tremor. Essential tremor is directly linked to progressive functional impairment, social embarrassment, and even depression. The tremor associated with essential tremor is typically slow, involves the hands (and sometimes the head and voice), worsens with intentional movements, and is insidiously progressive over many years. Deep brain stimulation has emerged as a highly effective treatment for intractable, debilitating essential tremor. However, since the intention tremor of essential tremor is typically intermittent, and commonly absent at rest, the currently available continuous deep brain stimulation may be delivering unnecessary current to the brain that increases undesirable side effects such as slurred speech and walking difficulty, and hastens the depletion of device batteries, necessitating more frequent surgical procedures to replace spent pulse generators. The overall objective of this early feasibility study is to provide preliminary data on the safety and efficacy of "closed-loop" deep brain stimulation for intention tremor using novel deep brain stimulation devices capable of continuously sensing brain activity and delivering therapeutic stimulation only when necessary to suppress tremor.
This study evaluates the safety and effectiveness of the Cala ONE device to aid in the symptomatic relief of hand tremors in adult essential tremor subjects. This study is a prospective, randomized, double-blinded, sham-controlled study.
The purpose of this research study is to test effectiveness of different deep brain stimulation (DBS) stimulation patterns on symptoms that may also improve the life of the battery. If these patterns are effective, the implanted batteries will be drained more slowly and last longer than currently expected. An increase in battery life may reduce the number of surgeries needed to replace them.
Essential head tremor (HT) does not usually respond to drug treatment such as propranolol or primidone or to surgical treatment such as deep brain stimulation of the thalamic ventralis intermedius nucleus. Botulinum toxin (Btx) is widely used and efficient in the treatment of blepharospasm and cervical dystonia. Btx prevents the release of acetylcholine in synapses, leading to a reduction of pathological muscle movement. Very little information is available on its efficacy on HT. Two published reports suggested that local Btx A injections could be an effective and safe approach for treating HT. Given the scarcity of published data (small samples, open studies, different doses of Btx used, heterogeneous populations, several muscles injected, etc.), the aim of this study is to demonstrate the efficacy of Btx injections in essential HT by a multi-center, randomized, double-blind, parallel-group, placebo-controlled study. Principal objective: To evaluate the efficacy of botulinum toxin injections in the treatment of head tremor. Secondary objectives: - - To evaluate the tolerance of botulinum toxin injections in the treatment of head tremor. - - To evaluate the impact of botulinum toxin injections on the patients' quality of life and embarrassment. - To evaluate the changes of tremor characteristics induced by a Btx treatment using a 3D accelerometer wireless portable system (Xsens MTw wireless motion tracker system) (tremor frequency, tremor displacement, mean peak amplitude, distance traveled) and a new video system device to analyze head tremor characteristics
The purpose of this study is to measure the effects of non-regular temporal patterns of deep brain stimulation (DBS) on motor symptoms and neural activity in persons with Parkinson's disease (PD), essential tremor (ET), dystonia or multiple sclerosis (MS). These data will guide the design of novel stimulation patterns that may lead to more effective and reliable treatment with DBS. These data will also enable evaluation of current hypotheses on the mechanisms of action of DBS. Improving our understanding of the mechanisms of action of DBS may lead to full development of DBS as a treatment for Parkinson's disease and may lead to future applications of DBS.
The primary objective is to study the efficacy of botulinum toxin type A (Xeomin®) injected utilizing kinematically-based injection parameters for the treatment of upper extremity essential tremor (ET). Additional objectives are to study the benefit of kinematic assessment tools in determining injection parameters and to study the composition of tremor using kinematics.
Patients with tremor may have varying degrees of tremor at different times. The amplitude and frequency of tremor may change. The investigators observational study is intended to document this tremor.
Essential Tremor (ET) is the most common tremor disorder, currently affecting an estimated 2.9 million Americans and leading to disability and decreased quality of life in 75% of cases. The pathophysiology of ET is poorly understood, with the source of the tremor remaining controversial since all studies show increased activity in the cerebellum (including mimicked tremor in controls), while animal models of ET using harmaline and a single human PET study implicate the inferior olivary nucleus in the brainstem. There is evidence from the investigator's laboratory that the use of resting-state functional magnetic resonance imaging (rs-fMRI) is useful for characterizing the abnormal tremor neural network in ET compared with controls. The goal is to identify the source of the tremor, which is hypothesized to remain active during rest. Current ET diagnostic criteria require the presence of postural and/or kinetic tremor, which are assumed to be different manifestations of the same tremor oscillator. This long-standing assumption may be incorrect based on several lines of evidence from the investigator's laboratory, and has major implications for understanding ET pathophysiology and treatment. The investigators will test the hypothesis that postural and kinetic tremors are generated through different neural mechanisms. Treatment of ET focuses on pharmacological agents of various mechanisms and rarely deep brain stimulation of the Vim thalamus. Despite the assortment of agents used to treat ET, only ~50% of patients benefit from a particular agent. Furthermore, the mechanisms of action on tremor are not generally known. Understanding the mechanisms of action of various tremor-suppressing agents is critical for future drug development. In this proposal, the investigators plan to study the effects of ethanol (the most efficacious tremor-suppressant currently available) and propranolol (a non-specific β-adrenergic blocker with proven efficacy and unknown mechanism of action) on the tremor neural network.
This is a monocentric, randomized, controlled, 2 arms, interventional, observer-blinded feasibility trial. Patients suffering from essential tremor (ET) will be treated with Deep Brain Stimulation (DBS). For the implantation of the DBS electrodes and the DBS system (Activa INS, Medtronic) patients will randomized either to conventional stereotactic surgery of thalamic/subthalamic region with short anesthesia or to MR-tractography guided stereotactic surgery with target point of the dentato-rubro-thalamic bundle (DRT) in general anesthesia. Patients will visit the study center at screening, baseline/neurosurgery, six and twelve months after neurosurgery.