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Showing 1-20 of 1,096 trials
NCT06087926
The goal of this clinical trial is to develop non-invasive brain stimulation targets for the treatment of apathy, or motivation problems, in Parkinson Disease. The main questions the study aims to answer are: 1. Does transcranial magnetic stimulation change effort task performance in Parkinson's Disease patients? 2. Is there a link between brain signals and apathy? Participants will * complete questionnaires and assessments * perform an effort task * have their brain activity recorded (EEG) * receive non-invasive brain stimulation (TMS) Researchers will compare two stimulation locations (experimental site and control site) to see if TMS of the experimental site has an effect on apathy. Participants will receive stimulation of both sites (during separate visits).
NCT07642908
This study explores how a specific genetic mutation of leucine-rich repeat kinase 2 (LRRK2) affects individuals with Parkinson's disease (PD), comparing those with the mutation to others with Parkinson's disease and without the mutation (iPD). Participants will complete positron emission tomography (PET) and magnetic resonance imaging (MRI) brain imaging, cognitive tests, motor tests, sensory tests, and questionnaires. The aims of this study are to compare brain chemicals in LRRK2 PD patients with iPD patients and to correlate brain chemicals with motor and cognitive tests in LRRK2 PD and iPD patients.
NCT03582891
This is an exploratory pilot study to identify neural correlates of specific motor signs in Parkinson's disease (PD) and dystonia, using a novel totally implanted neural interface that senses brain activity as well as delivering therapeutic stimulation. Parkinson's disease and isolated dystonia patients will be implanted unilaterally or bilaterally with a totally internalized bidirectional neural interface, Medtronic Summit RC+S. This study includes three populations: ten PD patients undergoing deep brain stimulation in the subthalamic nucleus (STN), ten PD patients with a globus pallidus (GPi) target and five dystonia patients. All groups will test a variety of strategies for feedback-controlled deep brain stimulation, and all patients will undergo a blinded, small pilot clinical trial of closed-loop stimulation for thirty days.
NCT07639463
Parkinson's disease is associated with impairments in upper extremity function, postural control, and sensory-motor processing that may negatively affect daily activities and quality of life. While upper extremity dysfunction has been extensively investigated, the potential contributions of trunk control and body awareness have received less attention. This cross-sectional observational study aims to compare upper extremity skills, trunk control, and body awareness between individuals with Parkinson's disease and healthy adults, and to examine the relationships among these variables within the Parkinson's disease group. The findings may improve understanding of factors associated with upper extremity performance and support the development of more comprehensive rehabilitation approaches for individuals with Parkinson's disease.
NCT06680830
The goal of this Phase 2 clinical trial is to investigate the efficacy and safety of NEU-411 in men and women aged 40-80 years with early Parkinson's Disease (PD) who have predicted elevations in the activity of the "leucine-rich repeat kinase 2" ("LRRK2" for short) pathway based on their genetic profile. A DNA test will be used to identify the "LRRK2-driven" population with predicted elevation in the LRRK2 pathway.
NCT05822388
This research study aims to identify MRI-based brain biomarkers that predict an individual's response to Deep Brain Stimulation (DBS). In particular, this study will focus on changes in cognition associated with DBS. A total of 55 participants with Parkinson's Disease planning to undergo DBS will be recruited from MUSCs Clinical DBS Program. Participants will undergo four visits, including a 1-hour screening visit, a 1.5-hour pre-DBS MRI scanning visit, and a 3.5-hour post-DBS cognitive assessment visit. In addition control participants without Parkinson's Disease will be recruited to undergo MRI scanning and cognitive assessments.
NCT07616050
The purpose of this clinical study is to evaluate the feasibility, usability, and motivational impact of VirtualPark, a virtual reality-based dual-task rehabilitation system, in adults with neurological and age-related conditions. VirtualPark is a virtual reality application designed to deliver cognitive exercises during cycling training using a commercially available ergometer (THERA-Trainer Tigo). The system integrates physical and cognitive tasks in simulated real-life environments. The intervention integrates motor and cognitive training tasks targeting domains such as attention, inhibition, working memory, and navigation. This is a prospective, multicenter, randomized, cross-over pilot study. It will compare cycling training performed with and without virtual reality. Participants will complete both intervention conditions over a 4-week period separated by a wash-out phase with standard rehabilitation activities. The order of conditions will be randomized. The study will assess motivation during rehabilitation training, usability and user experience of the system, as well as exploratory effects on cognitive and motor performance, functional abilities, perceived exertion, and safety. The study will enroll adult participants (≥18 years) with conditions such as stroke, Parkinson's disease, multiple sclerosis, amyotrophic lateral sclerosis, mild cognitive impairment, spinal cord injury, and frail older adults.
NCT07604883
This prospective observational study aims to identify and preliminarily validate molecular biomarkers, including microRNAs and metabolites, for the early differentiation of Parkinson's disease (PD) from atypical parkinsonian syndromes (APS). The study will enroll up to 100 patients with PD, 50 patients with suspected APS, and 50 healthy controls. Participants will undergo clinical assessments and provide blood, urine, and stool samples at baseline and after 12-18 months of follow-up. Molecular analyses, including microRNA profiling, metabolomics, RNA sequencing (RNA-seq), and microbiome analysis, will be performed to identify disease-specific diagnostic signatures. The primary objective is to detect differences in molecular profiles among patients with PD, patients with APS, and healthy controls. Secondary objectives include evaluating the diagnostic accuracy of biomarker panels and assessing longitudinal changes in these biomarkers over time. Although participants will not receive direct therapeutic benefits, the study may contribute to the development of non-invasive tools for the early diagnosis and improved differentiation of parkinsonian disorders.
NCT04332276
Prospective monocentric randomized controlled open-label proof-of-concept study in cross-over of two 1-month periods and a long-term follow-up period not to exceed September 30, 2023, with 2 groups: Intracerebroventricular A-dopamine versus optimized oral medical treatment in parkinsonian patients at the stage of severe motor complications (fluctuations and dyskinesias) related to oral L-dopa. In this study it will be expected to: 1) a higher benefit on motor symptoms 2) without tachyphylaxis, 3) a good ergonomic of the intra-abdominal pump refilled with A-dopamine every two weeks as compared with the numerous daily L-dopa doses and 4) a good safety profile of this classical neurosurgical procedure.
NCT07584343
In this observational study embedded within a randomized controlled trial, the investigators aim to characterize the activation patterns of the tibialis anterior and medial gastrocnemius muscles in the more rigid leg of patients with Parkinson's disease when performing walking tasks under dual cognitive-task conditions, which are known to increase the risk of falls in this population. To this end, a control group without neurological disorders and with comparable sociodemographic characteristics will also be assessed. The study seeks to determine whether significant changes occur in forward and backward gait as a function of the dual-task condition.
NCT06965374
Parkinson's disease (PD) is a neurological condition, which affects the brain. PD gets worse over time, but how quickly it progresses varies a lot from person to person. Some symptoms of PD are tremors, stiffness, and slowness of movement. This study will assess how effective Foslevodopa/Foscarbidopa is in treating Italian adult participants with advanced Parkinson disease under routine clinical practice. This study will also assess the caregiver quality of life (QOL) (if caregiver is present). Foslevodopa/Foscarbidopa is an approved drug for the treatment of Parkinson's Disease. Approximately 270 adult participants who are prescribed Foslevodopa/Foscarbidopa by their doctors will be enrolled across approximately 19 sites in Italy. Participants will receive Foslevodopa/Foscarbidopa subcutaneous infusion as prescribed by their physician. Participants will be followed for up to 12 months. There is expected to be no additional burden for participants in this trial. Participants will attend regular visits during the study at a hospital or clinic according to their routine clinical practice.
NCT05471375
The purpose of this study is to develop a database that contains movement and rehabilitation-related data collected through the use of wearable sensors and video. This database will serve as a resource for clinicians and researchers interested in the investigation of movement or rehabilitation-related research ideas.
NCT07250672
Although studies exist demonstrating the effects of single-session action observation training on bradykinesia in patients with Parkinson's disease, research investigating the long-term application of such training remains limited. Furthermore, the broader literature indicates that action observation training has typically been conducted in simulated environments or by using recordings obtained from healthy individuals. The aim of the present study is to examine the effects of action observation training, delivered in a fully immersive virtual reality environment using each patient's own 3D motion recordings, on bradykinesia and other disease-related parameters.
NCT05893186
Sixty patients will be enrolled in this study who are treated for Parkinson's disease (PD) with bilateral deep brain stimulation of subthalamic nucleus (STN) or globus pallidus (GP), who have a pre- operative 7 Tesla MRI including diffusion tensor imaging for tractography and a postoperative head CT for electrode localization, and in whom at least 3 months have passed since activation of their neurostimulators, for stabilization of clinical stimulator settings. Using their MRI and CT, the investigators will construct patient-specific models of electrical current spread to neuroanatomical tar- gets surrounding the electrode. Then applying nonlinear (particle swarm) optimization, patient- specific stimulator settings will be designed to maximally or minimally activate specific path- ways. In STN DBS: pedunculopallidal vs. pallidopeduncular pathways. In GP DBS: pallidopeduncular pathways at its origin in GP pars interna (GPi) vs. inhibitory afferents to GPi (from GP pars externa GPe). All stimulation falls within the the FDA-approved range for DBS for PD.
NCT07567599
Introduction: Parkinson's Disease (PD) is a progressive neurodegenerative condition characterized by classic motor symptoms, such as bradykinesia, rigidity, resting tremor, and postural instability, which directly compromise the mobility and autonomy of individuals with PD. Furthermore, non-motor manifestations, including autonomic, cognitive, and emotional changes, impact the quality of life of individuals with PD. Deep Brain Stimulation (DBS) surgery is a well-established treatment to assist in improving the primary motor symptoms of PD; however, literature is scarce in describing specific results regarding physiotherapeutic aspects, such as the motor symptoms that determine better quality of life and social participation for individuals with PD. Determining whether factors amenable to improvement prior to surgery-such as bradykinesia, muscle strength, and balance-are related to better motor and functional outcomes in individuals with PD post-DBS is of great importance to ensure a better result from the surgical intervention. Objective: To compare motor outcomes (gait speed, balance, freezing of gait, fear of falling, muscle strength, functional capacity, and physical activity level) of individuals with PD after undergoing DBS, relative to the motor status previously observed in the preoperative period. Methods: This is an uncontrolled clinical trial, with data collection conducted at the Neurovida private multidisciplinary clinic and the Hospital Santa Casa in Belo Horizonte. This study will be registered at www.clinicalTrials.gov and conducted according to the Consolidated Standards of Reporting Trials (CONSORT) recommendations. The present study will be submitted to the Research Ethics Committee of the Federal University of Minas Gerais (COEP) and will only commence after proper approval. All necessary consents for the development of the study have been obtained. The sample consists of individuals with idiopathic PD selected by a clinical neurologist specializing in movement disorders. The inclusion criteria for the present study are: having idiopathic PD diagnosed for more than five years, being under treatment with a neurologist specializing in movement disorders, and having an indication for DBS. Descriptive statistics and normality tests will be performed for all study variables. Selected variables will be compared in terms of mean difference between post- and pre-surgery measurements, considering a 95% CI. In all analyses, a significance level of α=0.05 will be considered, using the SPSS statistical package version 15.0 for Windows.
NCT06553625
The objective of this study is to compile real-world outcomes of Boston Scientific commercially approved radiofrequency (RF) ablation systems used in the central nervous system (CNS) for use in functional neurosurgery.
NCT07410598
The primary objective of the proposed pilot study is to assess the safety and tolerability of active patterned Deep Brain Stimulation (pDBS) when administered in a home setting for patients with Parkinson's disease (PD) who have had stable bilateral Subthalamic Nucleus (STN) and Globus Pallidus internus (GPi) DBS.
NCT04620382
The purpose of this study is to learn more about the effects of abdominal compression and the medication midodrine, two interventions used for the treatment of orthostatic hypotension (low blood pressure on standing), on hemodynamic markers of cardiovascular risk. The study will be conducted at the Vanderbilt University Medical Center and consists of a screening and 2 testing days, one with abdominal compression and one with midodrine. The total length of the study will be about 5 days.
NCT04675398
This is a single-center phase I clinical study aiming to improve gait functions in patients with Parkinson's disease (PD) by using adaptive neurostimulation to the pallidum. The investigators will use a bidirectional deep brain stimulation device with sensing and stimulation capabilities to 1) decode the physiological signatures of gait and gait adaptation by recording neural activities from the motor cortical areas and the globus pallidus during natural walking and a gait adaptation task, and 2) develop an adaptive deep brain stimulation (DBS) paradigm to selectively stimulate the pallidum during different phases of the gait cycle and measure improvements in gait parameters. This is the first exploration of network dynamics of gait in PD using chronically implanted cortical and subcortical electrodes. In addition to providing insights into a fundamental process, the proposed therapy will deliver personalized neurostimulation based on individual physiological biomarkers to enhance locomotor skills in patients with PD. Ten patients with idiopathic Parkinson's disease undergoing evaluation for DBS implantation will be enrolled in this single treatment arm study.
NCT07414290
A Phase I/II Clinical Study to Evaluate the Tolerability, Safety, and Efficacy of VGN-R08b Intra-cerebroventricular injection in Parkinson's Disease Patients with GBA1 Mutations