View clinical trials related to Essential Tremor.
Filter by:Evaluate the safety and effectiveness of Echo-Focusing using Exablate Neuro as a tool for treating patients with treatment-refractory neurologic and psychiatric disorders.
Radiosurgical thalamotomy on GammaKnife has been shown to be effective in the management of tremors. However, several teams describe a significant risk of severe neurological complications. In addition, fitting the invasive frame and the need to travel to GammKnife centers often limit access to treatment in this population of elderly patients. Linear accelerators have greatly improved their precision, now reaching that of GammaKnife. A possible alternative is therefore to treat patients on linear accelerators, without an invasive frame. The objective of the FRACTHAL study is to assess the feasibility and safety of treatment of essential and / or parkinsonian tremor by fractional radiosurgical thalamotomy on a linear accelerator. The main hypothesis of the FRACTHAL study is based on the fact that dividing the dose into 3 sessions will both protect healthy tissue around the target while maintaining therapeutic efficacy on the treatment target.
Movement disorders are common neurological disorders, characterized by either excess or paucity of movements. Essential tremor (ET) is one of the most common of these disorders, defined as chronic, rhythmic involuntary movements (tremor) that occur primarily during action involving the upper extremities as prominent body site. ET occurs in between 0.4% and 4% of adults below age 60, its prevalence and related impairment of routine daily actions increasing dramatically with age. More than half of patients do not regain functional independence with medications. These patients are offered functional neurosurgical approaches that carry procedural risk or adverse effects secondary to deep electric stimulation of surgical lesioning. Hence, there is a substantial need for alternative, non-invasive therapeutic options for this disabling neurological disorder. Recently, non-invasive neuromodulation applied as transcranial alternating current stimulation (tACS), has emerged as promising for tremor control. In healthy subjects, tACS applied with a high definition (or focused) montage to the primary motor cortex (M1), was found to entrain physiological tremor; in patients with Parkinson's disease, tACS could decrease the amplitude of rest tremor when the stimulation was delivered in phase with, and at the same frequency of, the tremor. Tremor in ET could also be entrained applying ACS to the arm skin's peripheral nerves (transcutaneous ACS), but its effect on tremor amplitude is unknown. METHODS AND POTENTIAL CONTRIBUTION/IMPACT OF THE RESEARCH. The proposed project aims to explore the whole potential of tACS for the tremor suppression in ET. The investigators aim to test the following hypotheses: 1. focused (or high definition, HD) tACS delivered over M1 at the same frequency of the tremor is effective in decreasing tremor amplitude in ET; 2. this effect is strongest when the delivery of tACS is locked to the phase of the tremor expressed by the patient, i.e. administering tACS in a closed-loop modality; 3. transcutaneous ACS in the upper extremities is as effective as tACS applied to the scalp around M1.
The aim of this study is to observe the efficacy of Deep Brain Stimulation in the treatment of Parkinson's disease,Essential Tremors and Dystonia in our locality.
A cornerstone in PD and ET research is the investigation of neurophysiological changes as potential bio-markers that could help in tracking disease progression and response to therapy. Electroencephalography (EEG) could provide a non-invasive and relatively inexpensive tool for identification of such bio-markers. In this study the investigators will use high-density electroencephalographic (EEG) recordings, in order to develop a platform of sensitive and reliable bio-markers for disease progression and response to MR-guided Focused ultrasound thalamotomy (FUS-T) intervention for tremor.