View clinical trials related to Parkinson Disease.
Filter by:The goal of clinical trial is to learn about how blood pressure fluctuations affect cognitive performance (thinking abilities) and brain blood flow in persons with Parkinson's disease with and without orthostatic hypotension (low blood pressure when standing). The main questions it aims to answer are: - Is there a certain level of blood pressure that correlates with change in cognitive performance while upright? - Is there a certain level of change in brain blood flow that correlates with change in cognitive performance when upright? - How does cognitive performance differ between persons with Parkinson's disease that have orthostatic hypotension and those without orthostatic hypotension? - How does cognitive performance differ between the supine (laying down) and upright positions? - How do blood pressure and brain blood predict changes in cognitive performance over two years? Participants in this study will undergo the following procedures: - Complete a screening visit with questionnaires, medical history, physical exam, and head-up tilt-table test. - Attend one baseline study visit, during which they will undergo a battery of computerized cognitive tests repeated twice: once while laying down and once while upright on a tilt table. Simultaneously, during the experiments we will measure blood pressure using a wrist-worn device and inflatable arm cuff and will measure brain blood flow using functional near-infrared spectroscopy (fNIRS), a non-invasive device that uses light sensors to detect changes in brain blood flow. - Attend one two-year follow-up visit, during which they will repeat a battery of computerized cognitive tests repeated twice: once while laying down and once while upright on a tilt table. During this visit, like before, we will measure blood pressure using a wrist-worn device and inflatable arm cuff and will measure brain blood flow using functional near-infrared spectroscopy (fNIRS). Researchers will compare participants with Parkinson's disease with and without orthostatic hypotension in the laying down and upright positions to see if there are changes in thinking abilities between these groups.
The goal of this clinical trial is to compare the effectiveness of online self-management program and on-site task-related training for people with early stage Parkinson's disease. people with early stage of Parkinson's disease (age range: 45-70 years) will be randomly assigned into the following three groups: control group, online self-management program group and on-site task-related training group.The control group will receive no treatment during the experimental period. For the other two groups, participants will receive the intervention twice a week, one hour per session and 12 sessions in total. The main questions it aims to answer are: 1. the potential impact of motor and non-motor symptoms on activity participation and quality of life for people with early stage of Parkinson's disease (PD). 2. compare and examine the the effectiveness of online self-management program and on-site task-related training for people with early stage Parkinson's disease on activity participation and quality of life.
The goal of this randomized, double-blind, placebo-controlled, crossover study is to test the effectiveness of 10 kilohertz (kHz) high-frequency transcutaneous stimulation for tremor in people with Parkinson's disease. The main questions it aims to answer are: - Compare the effectiveness between sham stimulation and real stimulation (10kHz) for different types of tremors [rest tremor, postural tremor, kinetic tremor], fine motor skills, and maximal isometric handgrip strength. - Register adverse events, the blinding success of participants and evaluator, and subjective perception of tremor improvement. Participants will perform the following tasks in an "off" state (without levodopa and dopamine agonists medication). All of them were performed on the upper limb with more tremor. - Rest Tremor: Forearm on the armrest, count backward from 100 to 0 as fast as possible for 1 minute and 30 seconds. - Postural Tremor: Extend the arm parallel to the floor (90º shoulder flexion with the forearm extended) for 30 seconds. - Kinetic Tremor: Hold a cup by the handle, raise it close to the mouth for 3 seconds, then return to the initial position. - Fine Motor Skills: Complete the nine-hole peg test, placing pegs into holes as quickly as possible. - Handgrip Strength: Squeeze the device as strongly as possible for 3 seconds, then rest for 15 seconds.
The investigational medicinal product (IMP) to be tested in the clinical trial (Rotigotine (ROT)-Transdermal System (TDS) (8 mg/24 h)), which is subject to this submission, was designed as a generic of Neupro® 8 mg/24 h, which is marketed in the European Union since 2006 (date of first authorisation is 2006, date of renewal of the authorisation is 2016) and serves as Reference product. It is the intention of this clinical trial to assess patch adhesion properties of the newly developed rotigotine patch and the marketed Reference product Neupro® 8 mg/24 h after multiple patch applications.
The goal of this pilot randomized clinical trial was to assess the feasibility of telerehabilitation (TR) for patients with Parkinson's Disease (PD). The main questions it aims to answer are: 1. whether the recruitment to such a study will be successful and the satisfaction of both participants and clinicians will be good. 2. Clinical effectiveness of TR for patients with PD was also explored. Participants were randomized to 3 groups : 1. Clinic+TR. 2. TR-only group and 3. A usual control group. Results were compared between the groups.
This observational research study is designed to assess the feasibility of developing a new software application that can be used in the home using a commercially available camera to measure abnormal body movements associated with Parkinson's disease (PD). The goal of this study is to validate the motor outcomes derived from a consumer camera observing a sub-set of standardized assessment tasks with respect to the reference motion capture system.
Pharmaceutical and neurosurgical treatments reliably ameliorate the cardinal motor symptoms in PD but, they often yield inconsistent outcomes for speech and voice disorders, with some studies showing exacerbation of pre-treatment deficits. Therefore, it is crucial to develop and optimize novel approaches that could simultaneously improve speech and voice deficits in PD and facilitate existing behavioral interventions. This project will investigate the immediate and short-term effects of multiple sessions of HD-tDCS over the left SMA on speech and voice deficits in PD.
The expression of hypokinetic and hyperkinetic motor symptoms is accompanied by pathological synchronous oscillations of neuronal activity in this cortico-subcortical network with a wide frequency range. The purpose of this research is to study cortico-subcortical oscillations and their synchronization in two pathologies emblematic of hypokinetic (Parkinson's disease) and hyperkinetic (epilepsies) phenomena using a simple motor task and comparing different situations.
Levodopa-induced dyskinesia (LID) in Parkinson's disease (PD) are involuntary movements caused by long-term treatment with dopaminergic replacement therapy (levodopa). During the cause of PD, most patients develop LID. In this study, the investigators plan to investigate how the cortico-basal-ganglia networks are affected in LID. The investigators will examine PD patients with and without LID as well as healthy age-matched controls using fMRI and PET. During the fMRI experiment, participants will perform a novel go-no task engaging both motor, emotional and reward brain networks. Patients will be scanned before and after intake of levodopa to study the dynamic effects of dopaminergic therapy. Furthermore, a dopamine transporter PET will be acquired to study the dopaminergic degeneration of the patients with PD.
This study is designed as a prospective, randomized, double-blind, controlled study to assess putative differences in the effect of interleaving stimulation and empirical stimulation with regards to post-operation dyskinesia control. The primary objective is to assess putative differences in the effect of interleaving stimulation and empirical stimulation with regards to dyskinesia control.