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Showing 1-20 of 36 trials
NCT05962489
Sleep-wake disturbances are a major factor associated with reduced quality of life of individuals with Parkinson's disease (PD), a progressive neurological disorder affecting millions of people in the U.S and worldwide. The brain mechanisms underlying these sleep disorders, and the effects of therapeutic interventions such as deep brain stimulation on sleep-related neuronal activity and sleep behavior, are not well understood. Results from this study will provide a better understanding of the brain circuitry involved in disordered sleep in PD and inform the development of targeted therapeutic interventions to treat sleep disorders in people with neurodegenerative disease.
NCT07442747
This study is focused on people with Parkinson's disease who already have deep brain stimulation devices. The goal is to understand how aerobic exercise, specifically forced vs voluntary cycling, affects movement, thinking, and brain activity in these individuals. Parkinson's disease is a progressive condition that impacts both movement and cognitive function. Previous research suggests aerobic exercise can improve PD symptoms, but the mechanisms underlying the improvement are not fully understood. This study aims to evaluate the neural (brain) mechanisms underlying exercise.
NCT05292794
A Multi-Center, Controlled Study to Evaluate Use of CereGate Therapy to Reduce Freezing of Gait in Participants Diagnosed with Parkinson's Disease.
NCT07417280
Low intensity focused ultrasound (LIFUS) has the potential to be used as a means of non-invasive neuro-modulation. To this day, the use of LIFUS is under investigation. Studies in healthy subjects have shown that application of LIFUS to the motor region of the brain can mildly decrease neuron excitability in healthy controls. The purpose of the present study is to evaluate the effects of LIFUS on brain tissue excitability in patients with movement disorders in order to elucidate the therapeutic potential of LIFUS.
NCT06909045
The objective of the CLOSE-PD study is to compare the efficacy of adaptive deep brain stimulation (aDBS) with continue deep brain stimulation (cDBS) in patients with Parkinson's disease. The main question it aims to answer is: \- whether the change in daily mean ON time without troublesome dyskinesia in aDBS is greater than cDBS over a six-month follow-up period? Researchers will compare aDBS to regular continue deep brain stimulation (cDBS). Participants will: * be set up to cDBS during the first programming visit (visit 2); * be randomized 1:1 to aDBS or cDBS two weeks after visit 2; * follow-up will be at three and six months after visit 2; * complete PD Home diary at baseline, two weeks, three months and at six months after visit 2.
NCT05905302
Fifteen PwPD who have undergone DBS surgery and utilize the Percept system will complete a FE and VE exercise session on a stationary cycle while Off antiparkinsonian medication. Bilateral neural activity of the STN will be continuously recorded for 130 minutes (pre-, during FE or VE and post-exercise). The Movement Disorders Society Unified Parkinson's Disease Rating Scale (MDS-UPDRS) III Motor Exam and upper extremity force-tracking task will be used to determine motor response to exercise.
NCT07176494
Parkinson's disease is a chronic and progressive neurodegenerative disease that affects the central nervous system, particularly impairing movement control. It is associated with the loss of dopamine-producing cells in the brain and typically occurs in middle age and beyond. Deep brain stimulation (DBS) is considered when symptoms of Parkinson's disease, such as tremors, slowed movements, and muscle rigidity, are not adequately controlled with medications. Selected patients with severe symptoms that do not respond to medical treatment are generally considered for this treatment. Battery revision surgeries can be performed under general anesthesia or regional anesthesia. Patients undergoing general anesthesia should be cautious about the potential complications of general anesthesia, while those undergoing regional anesthesia should be cautious about the local anesthetic systemic toxicity. Because each method has its own advantages, the choice of anesthesia may vary. This study aimed to compare postoperative analgesic efficacy and patient satisfaction in patients who underwent surgery under general anesthesia or sedation-assisted battery replacement under regional anesthesia. Both anesthesia methods are routinely used in Parkinson's disease patients undergoing battery replacement.
NCT07231302
Electrical stimulation (DBS) through electrodes implanted in the dentate nucleus of the cerebellum for the treatment of tremor intractable with medication, dystonia due to cerebrovascular disease (stroke), sequelae of traumatic brain injury, and ataxia (a disease that causes incoordination of movements). Use of advanced magnetic resonance imaging techniques and recording of nerve cell activity in this nucleus
NCT06191874
The objective of this project is to evaluate next generation visualization tools and surgical targeting models for clinical deep brain stimulation (DBS). This study will evaluate the performance of HoloDBS software in comparison to the current standard (SOC) clinical planning tools to prepare for DBS surgery. The investigators hypothesize that HoloDBS will provide more detailed and anatomically useful information to the neurosurgeon and neurologist than the current clinical standard. The study team reviews electronic medical records (EMR) from patients who are undergoing DBS surgery. There are no study visits involved in this study as only data from standard clinical care will be used. All study activities are executed by the study team and there are no interventions.
NCT07173660
Deep brain stimulation (DBS) has become a cornerstone therapy for advanced Parkinson's disease (PD), showing superior outcomes over best medical treatment in randomized clinical trials. By delivering adjustable electrical stimulation to key basal ganglia targets, DBS improves tremor, rigidity, bradykinesia, and motor fluctuations, while also reducing dopaminergic medication requirements. Its success, however, depends not only on precise surgical targeting but also on careful patient selection, multidisciplinary planning, and structured long-term follow-up. In Italy, PD affects nearly 176,000 individuals, of whom an estimated 2-4.5% are potential candidates for DBS. A national survey conducted by the Italian Neurosurgery Society (SINch) revealed marked heterogeneity in surgical approaches, target selection, and team composition across DBS centers-reflecting similar international variability. Yet, clear national indications and guidelines have not been established. To address this gap, we conducted an expert consensus using the Delphi methodology.
NCT06951906
For this study, the investigators are recruiting 54 individuals with Parkinson's Disease and Freezing of Gait (FOG) who are planning to undergo Deep Brain Stimulation (DBS). The objective of this study is to better understand the FOG response to DBS. Prior to DBS, participants will undergo an MRI scan, behavioral assessment related to walking, a cognitive evaluation, and assessment of other Parkinson's disease symptoms. Following DBS, participants will repeat these assessments at multiple timepoints over the period of one year. Overall, participants will complete a total of 7 visits over a period of approximately 1 year.
NCT04725773
Deep brain stimulation (DBS) of the subthalamic nucleus or globus pallidus internus can improve motor symptoms Parkinson's disease (PD). However, it is not known whether DBS can help reduce the signs and symptoms of the limb-kinetic, ideomotor or ideational apraxia associated with PD or if apraxia can exist as a stimulation induced side effect from DBS therapy. In this study, we look to conduct a pilot study to examine the feasibility of characterizing the prevalence of apraxia in PD patients with chronic, stable DBS.
NCT06388291
Op-TICS is a clinical investigation of the use of Deep Brain Stimulation (DBS), with a CE marked implantable device, to reduce severe motor and vocal tics in patients who suffer from Tourette Syndrome (TS). It is a randomised, double-blind, crossover clinical investigation for 20 patients. Op-TICS will be performed at the National Hospital for Neurology \& Neurosurgery. Following DBS surgery, participants will first enter an open adjustment phase, of 6 months, where the electrical stimulation settings of the device are optimised. Participants will then enter the double-blind phase that will include successively up to 2 weeks with stimulation on and up to 2 weeks with the stimulation off in a randomised order. The primary outcome measure is the tic severity score measured by the Yale Global Tic Severity Scale -Total Tic Score after two weeks OFF-stimulation versus two weeks ON-stimulation in the double-blind randomised crossover phase
NCT03952962
Treatment resistant depression remains a major problem for individuals and society. Surgical procedures may provide relief for some of these patients. The most frequently considered surgical approach is deep brain stimulation (DBS) of a part of the brain called the subcallosal cingulate region. However, the effectiveness and safety is not well established. The investigators will use a novel approach using advanced imaging technique (magnetic resonance tractography) to evaluate the feasibility and safety of this surgical approach. An innovative method for the definition of DBS target will be applied that redefines the concept of targeting as one of targeting a symptomatic network rather than a structural brain region using subject-based brain anatomy to define the target location. The correlation between imaging findings at baseline with the mood score changes at different time points of the study will be investigated.
NCT05753449
This is a study to evaluate Deep brain stimulation (DBS) burst-type electrical stimulation programming verses standard DBS programming. Burst-type DBS is defined as a novel stimulation protocol in which intermittent bursts of traditional high-frequency rectangular wave stimulation are delivered. Burst type DBS may improve the efficacy and durability of DBS pulse generator.
NCT05774041
The purpose of the study is to determine if using SIS System for DBS planning results in less distance between the planned target location and the actual implanted lead location than DBS planning without SIS System.
NCT05568199
By defining the strength and direction of connectivity patterns at rest and during movement across the basal ganglia-thalamocortical (BGTC) network we will characterize the role of individual circuits in motor performance and cognitive function, paving the way for future development of optimization algorithms for DBS that take advantage of this understanding.
NCT05065151
The study aims to better understand motivation and value-based decision-making in Parkinson's patients through neurophysiology using Medtronic's Percept DBS device. By combining behavioral tasks with neural recordings, the study seeks to uncover how DBS affects motivation, particularly in relation to effort, reward, and timing.
NCT06685510
BACKGROUND: Parkinson's disease (PD) is a common movement disorder whose main symptoms include resting tremor, rigidity and bradykinesia. Deep Brain Stimulation (DBS) has become one of the most effective treatments for PD by implanting electrodes in specific deep brain nuclei to alleviate motor symptoms in PD patients. During the implantation of electrodes in the DBS procedure, small lesions produced are known as the Microlesion Effect, which disappears within a short period. The MLE efficacy is positively correlated with the overall efficacy of DBS, but whether the MLE efficacy is affected by the symptoms has not yet been investigated, and a large-sample study is needed to further validate this. This study aims to examine the relationship between electrode implantation location and the prediction of MLE efficacy produced by STN-DBS surgery in PD patients, assess the correlation between electrode implantation location and DBS efficacy in PD patients, and analyze the role of brain networks in the process. The study will also analyze the relationship between micro-destructive effects and long-term DBS efficacy, providing more effective efficacy prediction and a more accurate selection of electrode implantation locations for DBS treatment in PD patients. This study will guide the clinical practice of DBS treatment in PD patients and provide an important reference for future research in related fields. Object: Primary Parkinson's Disease patients between the ages of 18 and 75 years who meet STN-DBS surgery criteria Aim: To observe the relationship between predicted efficacy and implantation location of STN-DBS for MLE in PD surgery
NCT05417555
The goal of this study is to investigate whether Low Intensity Focused Ultrasound Pulsation (LIFUP) targeting a part of the brain involved in memory will have an affect on brain activity and whether it may improve memory in people with Mild Cognitive Impairment and Mild Alzheimer's Disease. The main questions the study seeks to answer are: 1. Can LIFUP increase brain activity in the targeted area? 2. Can LIFUP improve memory in people with MCI and mild AD? 3. Can LIFUP improve connectivity of memory networks in the brain? Participants in this study will complete MRIs and memory testing, and receive Low Intensity Focused Ultrasound to a part of their brain involved in memory (the entorhinal cortex).