View clinical trials related to Parkinson Disease.
Filter by:A pilot experiment interventional study is proposed in order to set up multidisciplinary team for Parkinson's patients at home. The aim of this study is to evaluate the effectiveness of this specialized Parkinson's team (ESPark) intervention a on the quality of life of patients with moderate to severe Parkinson's disease
The aim of this research program is to develop and validate a smartphone app-based digital measurement concept that: - Objectively quantifies the severity of Parkinson's Disease (PD) related vocal and speech symptoms; - Accurately and sensitively identifies vocal and speech abnormalities associated with the prodromal stage of PD.
Cognitive impairment is a common non-motor symptom among individuals living with Parkinson's disease (PD). Traditionally, cognitive impairment is thought to reflect disruptions in dopaminergic frontal-striatal systems. However, the current conceptualization does not thoroughly explain the heterogeneous profiles or trajectories of cognitive impairment in PD; suggesting that alternative mechanisms may contribute to cognitive impairments. Identification of alternative mechanisms of cognitive impairment may lead to better prognostic prediction and yield novel treatment targets. The gut is implicated as a site of early pathology in PD. Early signs of PD pathology (alpha synuclein and Lewy body aggregates) are detected in the gastrointestinal tract years before motor symptoms manifest. Recent studies provide evidence that individuals with PD have an altered gut-bacterial composition (termed dysbiosis) relative to controls. To date, dysbiosis is linked to more severe motor symptoms and certain non-motor symptoms (constipation, REM behavioral sleep disorder) in PD, but the relationship between dysbiosis and cognitive impairment remains unknown. Animal studies support the hypothesis that microbiota composition play a direct role in cognitive impairment. Germ free (GF) mice demonstrate deficits in cognition. Specifically, findings suggest that a disrupted gut- microbial environment in conjunction with elevated stress hormones may create an imbalance of pro- inflammatory vs. anti-inflammatory cytokines that induces potentially reversible cognitive impairments. In human studies among individuals with PD, neuroinflammatory markers are associated with cognitive impairment. However, the relationship between dysbiosis, neural inflammation and cognitive functioning remains unknown. This model has incredible clinical implications, as microbiota dysbiosis may represent a reversible risk factor for cognitive impairment. The proposed study will examine the hypothesis that dysbiosis contributes to increased neuroinflammation and cognitive impairment. Microbiota composition/function, neuroinflammatory markers and cognitive functioning will be examined in 100 participants with PD. Analyses of microbiota composition/function will examine abundance of amplicon sequence variants (ASVs; 16s), bacterial species/strains (metagenomics), microbial genes, and functional pathways. The investigators hypothesize that microbiota composition/function will be associated with inflammatory markers (e.g. interleukin-6, tumor necrosis factor-alpha, c-reactive protein) and cognitive impairment.
Background: A movement disorder is a condition that causes a person s body to move in ways that are not normal. There are different types. Some disorders cause movements people can t control, such as tics or shaking. Some cause reduced or slow movements. Movement disorders can cause disability in people. Sometimes members of the same family will have the same disorder. Researchers want to learn more about how people develop these disorders. This research could lead to better treatments. Objective: This natural history study will collect data on people with different types of movement disorders. It will also collect data on their family members. The data will support further research. Eligibility: Children and adults aged 2 years and older who have a movement disorder. Family members of people with movement disorders are also needed. Design: Participants will undergo screening. They will have a physical exam. Researchers will look at their existing medical images. Any photographs or videos of their movements will also be reviewed. Most participants will come to the NIH clinic for only 1 visit. They will answer questions about their condition. They will have normal tests used to diagnose their condition. They may have blood tests and different types of imaging scans. They may have tests to see how well their nerves function. The tests used will depend on the type of disorder they have. Family members will have some of the same tests as people with disorders. Participants will not receive any new treatments. Some participants may be asked to return for a follow-up visit. Up to 4000 people may participate.
Pain is a very common and disabling symptom in Parkinson's disease, yet it is often untreated. This study will assess the impact of home-based physical and cognitive exercise interventions to reduce pain in this disease. This approach would offer an easily implemented and affordable way to encourage and maintain use of these interventions by patients virtually indefinitely through remote access technology. The study findings may help VA clinicians provide optimal care for the many Veterans with Parkinson's disease and chronic pain.
Continuous subcutaneous apomorphine infusion (CSAI) has proven to be effective in advaced Parkinson's disease patients with motor fluctuations not controlled by oral or transdermal medication. After initiation of this therapy, most of the patients need nurse services at home for the entire duration of treatment. Some patients are reluctant about this dependence and thus may refuse or delay the initiation of CSAI. To date, there is no guideline to promote patients' autonomy in managing CSAI treatment. Thus we developed a program focusing on early autonomy during CSAI intitiation, through empowering the patient or their carer, and promoting primary and tertiary care. The hypothesis is that implementing the program will lead patients to autonomy. This will have beneficial effects on clinical and heath-related outcomes and may be cost-effective.
Inability to align and refocus the eyes on the objects at different depths, i.e., vergence impairment, frequently affects the quality of life in patients with Parkinson's disease. Our study aims to understand the location-specific effects of subthalamic region deep brain stimulation on vergence by integrating the patient-specific deep brain stimulation models and high-resolution eye-tracking measures. The knowledge gained will allow us to find the most beneficial stimulation location and parameters for improving binocular coordination and vergence while preserving the ability to treat motor symptoms in Parkinson's disease.
Parkinson's disease (PD) is the second most common neurodegenerative disorder worldwide. Besides causing symptoms that impair movement, PD also causes non-motor symptoms, such as problems thinking and orthostatic hypotension (OH), i.e., low blood pressure (BP) when standing. About one-third of people with PD have OH, which can cause sudden, temporary symptoms while upright, including lightheadedness, dizziness, and fainting. People with PD and OH can also experience problems thinking that happen only while upright and not while sitting - this can occur without other symptoms, such as feeling dizzy or faint. However, the level of low BP that can affect thinking remains unknown, and no guidelines exist for treating OH when it happens without symptoms. This is significant because OH could be a treatable risk factor for thinking problems in PD, but OH is often not treated if people do not report obvious symptoms. This project's goal is to determine how BP affects brain function in PD. The proposed experiments will measure BP and brain blood flow continuously in real-time using innovative wearable technology. Persons with PD with OH and without OH will undergo repeated cognitive tests while supine (lying down) and while upright. I will study the associations between BP, thinking abilities, and brain blood flow, and will compare groups with and without OH. These findings could be important because if a certain level of BP correlates with thinking abilities, then treating OH in PD may prevent thinking problems, which would improve health-related quality of life and reduce disability and healthcare costs.
The purpose of this study is to compare the effectiveness of the deep brain stimulation of asymmetric targets [subthalamic nucleus (STN) in the right hemisphere while globus pallidus interna (GPi) in the left] versus the bilateral STN for the treatment of Parkinson's disease (PD) with postural instability/gait difficulty (PIGD) in a randomized, double-blinded manner.
This is a Phase 1/2 study to evaluate the safety and tolerability of 18F-OP-801 in subjects with ALS, AD, MS, PD and age-matched HVs. 18F-OP-801 is intended as a biomarker for PET imaging of activated microglia and macrophages in regions of neuroinflammation.