Active clinical trials for "Essential Tremor"

The primary purpose of this study is to evaluate the dose-response relationship of different doses of SAGE-324 on upper extremity tremor in participants with essential tremor (ET) in the monotherapy cohort.

The purpose of this research is to observe the daily loss of benefit from DBS therapy by performing a standardized set of tasks throughout the day while wearing an Apple Watch to collect movement and other physiological data.

Individuals experiencing tremors face difficulty performing activities of daily living caused by involuntary oscillation of the muscles in the hands and arms. Current solutions to help suppress tremors include medication, surgery, assistive devices and lifestyle change. However, each of these has a drawback of its own including cost and unwanted side effects. Aside from the solutions listed, it has been shown that functional electrical stimulation(FES) is a possible solution to help suppress tremor. Additionally, FES can be combined with different technologies including accelerometers, gyroscopes and motion capture to develop a closed loop system for tremor suppression. However, this has drawbacks including signal interference and the need for multiple sensor to fully classify the tremor. Ultrasound imaging solves some of these issues because it can provide a direct visualization of hand muscles that contribute to tremor. This study will focus on detecting characterizing and differentiating tremors from voluntary hand motion using ultrasound imaging. The results obtained from this study will help design FES-based tremor-suppression techniques in the future. This study will target both subjects with different tremor disorders and able bodied subjects.

Deep brain stimulation (DBS) targeting the Vim thalamus (ventralis intermedius nucleus) is an FDA-approved neuromodulation therapy for treating postural and action tremor in individuals with essential tremor (ET). The success of this treatment, however, is highly dependent on the ability of clinicians to identify therapeutic stimulation settings through a laborious programming process. There is a strong and growing clinical need for new approaches to provide clinicians with more efficient guidance on how to titrate stimulation settings. This study will leverage subject-specific computational models that can predict neural activation of axonal pathways adjacent to the active electrode(s) and implicated in the therapeutic mechanisms of Vim-DBS to in turn guide clinicians with which stimulation settings are likely to be the most therapeutic on tremor.

Essential tremor (ET) is a neurological disorder that affects nearly 0.9% of the world's population. High-frequency Deep Brain Stimulation (DBS) of the ventral-intermediate nuclei of the thalamus (VIM) has been proven as an effective second-line treatment for severe forms of ET. The arrival on the market of the PERCEPT™ (new stimulator/recorder, Medtronic, Minneapolis, USA) now allows, in addition to the stimulation delivery, the recording of intracerebral activity at a distance from surgery, in a non-invasive way and in ecological condition at home. Investigators aim at recording the variations of thalamic Local Field Potentials (LFP) oscillations, in ecological condition, during rest and movement, with and without deep brain stimulation, once a week, between M3 and M6 post surgery.

Transcranial Ultrasound Stimulation (TUS) is an emerging non-invasive brain stimulation(NIBS) technique that can be used on both superficial and deep brain targets with a high spatial resolution as small as a few cubic millimeters. Neural correlates of TUS have yet been elucidated. To date, no intracranial recordings (i.e., local field potential [LFP]) have been captured during or after TUS in patients with movement disorders. In this study, we are aiming to profile basal ganglia LFP activity during and after TUS by using a DBS system that is capable of recording LFP. This can shed light on mechanisms of TUS, as well as allow identification of a neurophysiological biomarker that can be used to tune the TUS sonication parameters for future clinical trials.

This is a feasibility study based on physician-initiated Investigational Device Exemption (IDE) including intraoperative experiments and chronic testing of implanted dual thalamic DBS lead systems. This study will inform protocols for optimal use of implanted next-gen DBS systems for primarily tremor control in refractory essential tremor.If the approach appears to be successful, the pilot data generated will be used to base a future pivotal trial for FDA approval for enhanced tremor control and adaptive DBS (aDBS) functionality of DBS systems.

The study of the impact of music on emotional, motor and cognitive aspects remains recent. Music therapy has experienced a major boom over the last half century thanks to neuroradiological techniques for investigating the brain, and in particular in vivo functional MRI. Brain imaging has also made it possible to highlight and analyse certain activations of the networks concerned during the passive listening of music (receptive music therapy) but also during the playing of a musical instrument and/or the use of the voice (active music therapy). The accumulated data in music neurophysiology is now considerable [1]. Music therapy has thus been associated with motor rehabilitation in the case of acquired (stroke) and/or degenerative (Parkinson's disease) pathologies and has also been proposed as a means of pain relief. However, although proposed in the middle of the 20th century as a potentially therapeutic tool, music therapy has not managed to prove sufficiently effective to be validated in medicine. One of the limitations remains the intervention of numerous subjective factors, notably in the establishment of "protocols" and the absence of standardisation in their very structures. Each year, the "Resistant Brain Pathology" unit of the Department of Neurosurgery takes care of more than a hundred patients who have benefited from treatment with Continuous Electrical Neuromodulation (CEN) in order to respond to a motor symptomatology that is resistant to the usual treatments. The benefits of DBS in the management of abnormal movements have been demonstrated [2]. However, this symptomatic treatment does not exclude a worsening of the underlying pathology over time, thereby increasing latent anxiety and promoting the fragility of otherwise severely disabled patients. The management of chronic diseases requires the expertise of a multidisciplinary team so that each aspect contributing to the quality of life of patients can be assessed and supported as best as possible. In order to improve the quality of life of our patients, a music therapy unit has been established within the multidisciplinary neurosurgery department for two years now. The clinical music therapist attached to the unit has a dedicated room, offering a sensory environment conducive to relaxation and including all the necessary comfort. A standardised protocol for the conduct of the sessions, the organisation and choice of music in direct relation to the different emotions explored on the basis of the permanent perception of heartbeats was developed on the basis of the Webb & all study [3]. When a patient is immersed in a sound bath, identical to that perceived in utero, it would seem that this potentiates the benefits expected from music therapy sessions [3]. Our approach, although empirical, shows a decrease in anxiety and an increase in well-being in about fifty patients. Our observations support those highlighted in the literature in other pathologies [4] and encourage the use of this approach as a preamble to more specific explorations, in particular the catalysis of certain motor behaviours. This project is therefore in line with this approach and continuity. The investigators thus hypothesize that participation in a standardized music therapy protocol (active, receptive and psychomusical relaxation) against a background of regular heartbeats improves the quality of life of the operated patients by acting in particular on a reduction of anxiety and depressive symptoms. To our knowledge, music therapy has never been proposed in a standardised way to patients with multiple disabilities, operated on and cared for over the long term in a functional neurosurgery department. This approach remains non-invasive and attractive in an often anxiety-provoking hospital context.

The purpose of this study is to understand the neurophysiological mechanisms of peripheral electrical stimulation (PES) in modulating supraspinal tremorogenic input to motoneurons. For this purpose, the investigators will use transcutaneous PES, high-density electromyography (HD-EMG), transcranial magnetic stimulation (TMS), electroencephalography (EEG), magnetic resonance imaging (MRI), and neuromusculoskeletal modelling. This study will be carried out in both healthy participants and patients with essential tremor (ET) and Parkinson's disease (PD).

Essential tremor is a chronic and progressive neurological disease characterized by upper limb tremor. This is one of the most frequent movement disorders. Most of the time the disease worsens over the time, affecting patients' work abilities and in the most severe cases activities of daily living such as eating or dressing. For the most disabled patients, Deep brain stimulation (DBS) of the thalamic ventral intermediate median nucleus (Vim), a procedure consisting in an electrode implantation in a structure of the brain involved in tremor genesis, is the gold standard treatment. While this therapy is most of the time highly effective in alleviating the tremor, some subjects may exhibit gait impairment or upper limb coordination troubles years after the surgery, which are thought to be due to the involuntary stimulation of efferent cerebellar fiber tract. Unfortunately, this DBS induced side effect cannot be systematically avoided and may limit the possibilities of settings adaptation required to control the tremor. Surprisingly, while it could be a valuable therapeutic option for these patients suffering from DBS induced balance troubles, little is known about the effect of varying the rate of stimulation on the gait disorders associated with essential tremor and Vim DBS. The aim of or study is consequently to assess the effect of different frequency of stimulation on tremor, gait and balance disorders as well as on eye movements in patients uni or bilaterally stimulated in the Vim for a severe and medically intractable essential tremor. Patients followed at the National Hospital for Neurology and Neurosurgery (University College London Hospital) will be included. To better characterize the different symptoms, the investigators will use ataxia and tremor rating scale together with 3D gait motion analysis, oculography and computerized spiral test analysis. Our findings might lead to a better understanding of Vim-DBS associated gait disorders in essential tremor.