View clinical trials related to Parkinson's Disease.
Filter by:We are trying to identify factors associated with improved quality of life and fewer PD symptoms. We are attempting to identify practices, beliefs, and therapies used by individuals who report excellent quality of life, few PD symptoms, and reduced rates of progression. After agreeing to participate, we will ask participants to fill our questionnaires about their experience with PD, their health in general, along with their food intake every six months for five years.
In Parkinson's disease, gait disturbances represent one of the most disabling motor symptoms, frequently associated with an increased risk of falls, loss of independence and a negative impact on quality of life. In recent years, the interest in automated robotic devices for gait training for Parkinson's Disease patients has grown. With their consistent, symmetrical lower-limb trajectories, robotic devices provide many of the proprioceptive inputs that may increase cortical activation and improve motor function while minimizing the intervention of a therapist. So the main aim of this study will be to analyze, through a clinical and an instrumental evaluation, the effectiveness of a Lokomat gait training in subjects affected by Parkinson's disease in comparison to a ground conventional gait training.
Background: - In deep brain stimulation (DBS), a device called a neurostimulator is placed in the chest. It is attached to wires in parts of the brain that affect movement. DBS might help people with movement disorders like Parkinson s disease (PD), dystonia, and essential tremor (ET). Objective: - To provide DBS treatment to people with some movement disorders. Eligibility: - Adults 18 years and older with PD, ET, or certain forms of dystonia. Design: - Participants will be screened with medical history and physical exam. They will have blood and urine tests and: - MRI brain scan. The participant will lie on a table that slides in and out of a metal cylinder with a magnetic field. They will be in the scanner about 60 minutes. They will get earplugs for the loud noises. During part of the MRI, a needle will guide a thin plastic tube into an arm vein and a dye will be injected. - Electrocardiogram. Metal disks or sticky pads will be placed on the chest, arms, and legs. They record heart activity. - Chest X-ray. - Tests of memory, attention, concentration, thinking, and movement. - Eligible participants will have DBS surgery. The surgery and hospital care afterward are NOT part of this protocol. - Study doctors will see participants 3 4 weeks after surgery to turn on the neurostimulator. - Participants will return every month for 3 months, then every 3 months during the first year, and every 6 months during the second year. Each time, participants will be examined and answer questions. DBS placement will be evaluated with MRI. The neurostimulator will be programmed. At two visits, participants will have tests of movements, thinking, and memory.
The purpose of this study is to record electrical brain activity during DBS surgery and after DBS surgery using the Medtronic Activa PC+S deep brain stimulation (DBS) system, a modified DBS pulse generator. The goal of the study is to investigate if the electrical brain activity can help customize DBS therapy.
Parkinson disease (PD), multiple system atrophy (MSA) and progressive supranuclear palsy (PSP) are neurodegenerative disorders. PD and MSA are alpha-synucleinopathies, which are characterized by the abnormal accumulation of alpha-synuclein, while tau protein accumulates in PSP. The development of biological markers for the diagnosis and prognosis in PD, MSA and PSP remains an unmet need. Such biological markers are crucial for future disease-modification and neuroprotection trials. Alpha-synuclein has a high potential for biomarker development since it constitutes the pathological hallmark feature in PD and MSA. The oligomeric alpha-synuclein seems to be particularly involved in abnormal protein aggregation in alpha-synucleinopathies. The main objective is to compare oligomeric alpha-synuclein CSF levels between PD, MSA and PSP patients. PD and MSA patients will receive Cerebrospinal Fluid (CSF) and blood sampling at two study visits (baseline and after 12 months). Major secondary objectives are (i) to assess potential associations between the biomarker and clinical measures of disease severity and progression in MSA and PSP, and (ii) to assess the variation of the biomarker and its correlation to disease severity and progression in PD, MSA and PSP.
To test whether a multidisciplinary intensive rehabilitation treatment (MIRT) slowed down the progression of the disease in Parkinson's disease (PD) "de novo" patients, all treated with Rotigotine, in a randomized controlled study with a 18 months follow-up.
Objective: To analyze different parameters in patients with Parkinson's Disease (PD) obtained through the use of a stabilometric platform and compare them with those of a control population. To interpret the data in order to find some postural instability indicators that can become useful to build a rehabilitation strategy for balance disorders in PD.
The purpose of this registry is to compile characteristics of world-wide outcomes for the use of Boston Scientific's commercially available Vercise DBS System in the treatment of Parkinson's disease. The utilization of Image Guided Programming (IGP), and other commercially available programming features, used as planning tools for the programming of patients with Boston Scientific's Vercise DBS System are also evaluated. Additionally, the utilization of the DBS Illumina 3D feature that may be used for the programming of patients with Boston Scientific's Vercise DBS Systems is also evaluated.
Parkinson's disease (PD) is a progressive degenerative disease of central nervous systems deficit. The clinical symptoms of Parkinson's disease include the following motor tasks: difficult in initiating movement, performing rhythmic movement or serial movement, the ability of learning motor movement is also affected. The primary treatment for Parkinson's disease is medical treatment; surgery is used if in need. Rehabilitation such as physical therapy, which aims to improve patient's quality of life and functions, is a non-invasive treatment and value for PD patients. Auditory cue is a technique that widely applied on training patients with Parkinson's disease, and some researches revealed that auditory cueing could improve motor performance. However, the mechanism under this treatment technique is still unknown. This study is to investigate the effect of auditory cueing on rhythmic finger movement in patients with Parkinson's disease. To investigate the mechanism under auditory cueing, neurophysiological data such as motor cortex excitability and blood flow in cortical cortex will be obtained by using Transcranial magnetic stimulation (TMS) and near infrared spectroscopy (NIRS).
The purpose of this study is to investigate issues relating to comfort and tolerance to surface neuro muscular electrical stimulation in a parkinson disease population.