View clinical trials related to Deep Brain Stimulation.
Filter by:To compare the clinical outcome of patients with Parkinson's disease (PD) treated with directional deep brain (dDBS) stimulation undergoing subthalamic deep brain stimulation operation (STN-DBS) under general anesthesia versus local anesthesia.
The subthalamic nucleus (STN) and globus pallidus interna (GPi) are two main targets in the deep brain stimulation (DBS) treatment for Parkinson's disease (PD). Large randomized controlled trials, in which patients of comparable clinical and demographics were randomized to either GPi DBS or STN DBS, have demonstrated equal effects of both targets in motor symptom improvement, the superiority of STN DBS in the medication reduction and the potential advantage of GPi DBS for cognitive, psychiatric and axial aspects. Unfortunately, in such a highly heterogeneous disease of PD, many of these randomized controlled trials didn't include sufficient subjects and thereby yielded inconsistent results. Moreover, most studies are investigating the difference between GPi and STN in different patients. In order to address the problem, an intra-patient comparison will be made by investigating the acute turning-on effects of unilateral STN stimulation versus unilateral GPi stimulation on axial symptoms, cognition and also cardinal symptoms within each individual patient who received the treatment of combined unilateral STN and contralateral GPi DBS. Axial symptoms including gait, balance and posture, motor symptoms and cognition are comprehensively assessed under two treatment conditions.
1. Evaluating therapeutic effects of globus pallidus internus (GPi) deep brain stimulation (DBS) on Huntington's disease (HD) patients with choreaï¼› 2. Explore the relationship between brain network conditions and DBS efficacy in HD patients 3. Explore the effect of different programmed parameters on the treatment of patients with DBS
This study will evaluate the efficacy and explore the mechanism of deep brain stimulation (DBS) in the ventral internal capsule (VIC) and nucleus accumbens (NAc) for refractory obsessive-compulsive disorder (OCD).
The purpose of this study is to better understand the roles the cerebellum, basal ganglia, and thalamus play in motor learning. Patients undergoing High Intensity Focused Ultrasound (HIFU) treatment will be receiving an ablation procedure to their thalamus as a part of their medical procedure. Participation in this study will include completing a behavioral task before and after the procedure to see how motor learning task performance differs with and without the thalamus. Similarly, patients undergoing Deep Brain Stimulation (DBS) treatment will have an electrode implanted in their thalamus as a part of their medical procedures. Participation in this study will include completing the motor learning task performance "on" and "off" thalamic electrical stimulation.
The aim of the study is to improve estimation of cognitive outcome after STN-DBS in PD in order to - avoid risk factors by optimizing peri- and intraoperative management - personalize therapeutic strategies for optimal long-term benefit The investigators will test possible predictors (clinical, neuropsychological, neuroimaging, electrophysiological and molecular) for the risk of cognitive dysfunction after deep brain stimulation of the subthalamic nucleus (STN-DBS) in Parkinson's disease (PD) at a single center (Charité - Universitätsmedizin Berlin, Germany). Data collection takes place prior to as well as 3 and 12 months after the STN-DBS operation. Participation is proposed to all PD patients that are planned to undergo STN-DBS after careful examination of eligibility for this treatment according to standard operation procedures.
Background: Deep brain stimulation (DBS) is used to modulate the activity of dysfunctional brain circuits. The safety and preliminary efficacy of nucleus basalis of Meynert (NBM)-DBS in Alzheimer's disease (AD) is proved in a recent phase 1 clinical trial, yet, the mechanism still unknown. Objective: 1. To compare the brain structure and functional circuits between a) AD patients with optimal drug treatment (ODT) plus NBM-DBS, b) AD with ODT and c) normal age-and sex-matched control. 2. To evaluate the clinical effectiveness of NBM-DBS in AD patients 60-75 year-old. 3. To evaluate the abnormal functional circuitry response to acute and chronic NBM-DBS in AD. Methods: A total of 30 subjects (10 subjects of AD with ODT plus NBM-DBS; 10 subjects of AD with ODT and 10 subjects of normal age-and sex-matched subjects) will be enrolled in this prospective, with normal control, Phase II study. Study tools will include clinical rating batteries, structure and functional imaging of magnetic resonance (MR) and positron emission tomography (PET), and electroencephalogram (EEG). Expected Results: NBM-DBS will be proved to be an safe and effective treatment modality in AD patients 60-75 year-old. Through multi-modal images and EEG analysis, the possible action mechanisms of NBM-DBS on memory circuit will be discussed. The study results may shed a light on this helpless neurodegenerative disease of dementia.
Retrospective review of images used to target the STN during DBS procedure and ability of the Surgical Information Sciences ("SIS") system to visualize the STN location.
Deep Brain Stimulation (DBS) uses electrical pulses sent through a lead (insulated wire) to help stop unwanted symptoms in a variety of brain diseases, including the tremor seen in patients with Essential Tremor (ET). The current standard lead allows this stimulation to spread out uniformly in all directions. As these diseases progress, however, the amount of electrical stimulation required to stop the symptom usually increases. This may become problematic because the increased electrical stimulation required for advanced symptoms may spread outside the desired targeted area, and effect other parts of the brain and causing unwanted side effects. A new type of DBS lead has been developed which can steer, or focus, the electrical stimulation in a given direction toward the desired target area and away from areas that would cause side effects. We would like to quantify the benefit seen in patients who have been switched from the traditional lead to this new directional lead.
The proposed study aims to characterize ataxia occurring in essential tremor and essential tremor with DBS.