View clinical trials related to Parkinson Disease.
Filter by:This clinical trial focus on the delivery of Cerezyme® in Parkinson's Disease (PD) patients using MR-guided focused ultrasound (MRgFUS) induced opening of the blood-brain barrier (BBB).
The long-term goal of this work is to maintain or improve daily function of people with PD by addressing cognition. The overall objective is to discover interventions that aid in cognitive functioning. The central hypothesis is that engagement in an improvisational dance (ID) class will benefit cognition among people with PD. Improvisational dance involves spontaneously generated movement, similar to how one moves in everyday life. The literature shows that ID classes positively impact motor impairments associated with PD, such as balance, gait, and functional mobility. Along with being physically demanding, ID requires the use and coordination of a number of cognitive capacities to properly execute movements. This type of activity challenges, and thus may strengthen, cognitive processes such as motor planning, decision making, flexible thinking, initiation, and execution, which may give people cognitive based strategies to be utilized in various aspects of daily life. By improving motor function and/or cognition, ID may also contribute to improved daily functioning, or the ability to perform and participate in daily activities. Despite these theoretical links, evidence for the effect of ID on cognition and overall daily function is limited. The current project objective is to address this gap and better understand the effects of ID for people with PD. Specifically, it will test the effect of IMPROVment®, a method of ID designed for people with PD, on cognition and daily function. Participants' cognition will be assessed at baseline (T1) using the NIH Toolbox Cognitive Battery, the Alternate Uses Task, and the Weekly Calendar Planning Activity. Global cognition will be assessed using the Montreal Cognitive Assessment. They then will be randomly assigned to either the immediate intervention (ID) or waitlist-control (WC) group. The ID group will start the 12-week IMPROVment® intervention, which consists of weekly ID classes that progress according to a standardized method while the WC group will receive no intervention and continue with their regular daily routine and activity level. After 12 weeks, both groups will complete cognitive testing again (T2). Cognitive test scores will be compared across time points and between groups using a mixed model repeated measures ANOVA. The investigators hypothesize that IMPROVment® will have positive effects on the cognitive abilities of people with PD. Participants will also complete two questionnaires to assess daily function at T1 and T2: Older Americans Resources and Services Scale- Extended Version and PROMIS Satisfaction with Participation in Discretionary Social Activities. These scores will be compared similar to the above aim. The investigators hypothesize that IMPROVment® will have positive effects on daily function in people with PD. Participant mood will be assessed in two different ways. The first being to investigate the immediate effect of participating in an IMPROVment® class on mood, fatigue, and anxiety. The investigators hypothesize that mood will positively improve from pre to post of each class. To assess this, participants will respond to a scale assessing mood, specifically sadness, nervousness, energy, and overall well-being before and after each class every week. The second measurement is to investigate the effect of IMPROVment® on anxiety, fatigue, and depression. The investigators hypothesize that IMPROVment® class will decrease feelings of depression for those with PD. All participants will fill out the Parkinson's Anxiety Scale, the Parkinson's Disease Fatigue Scale, and the Geriatric Depression Scale short form before and after participating in the 12-week IMPROVment® program. Achievement of these aims will provide further support for the IMPROVment® method for people with PD experiencing cognitive deficits. The long-term impact will better cognition and daily functioning in people with PD, and thus enhanced everyday lives.
A two months intervention in which two groups of cognitive disorders, Parkinson and Alzheimer's disease, will receive 50g/day of a commercial MCT supplement combined with supervised aerobic exercise 3 times/week. Cognition and ketones will be assess before and after the intervention, along with endocannabinoids plasma concentrations.
The development of a disease-modifying therapy that delays, reverses or stops the symptom progression remains the most important unmet goal in the treatment of Parkinson's disease (PD). Apart from its glucose lowering effect, glucagon-like peptide-1 (GLP-1) receptor stimulation has been investigated in animal models of PD and shown to increase neurogenesis, to arrest and possible reverse nigrostriatal damage, and to protect dopaminergic neurons from neurodegeneration. Exenatide is a synthetic analogue of human GLP-1, resistant to the metabolic processes that degrade it in its naturally occurring form. Results from a recent randomised, double-blind, placebo-controlled trial in PD showed that patients in active treatment for one year were improved compared to the placebo arm with regard to their performance in Movement Disorders Society - Unified Parkinson's Disease Rating Scale (MDS-UPDRS) motor subscale in the practically defined OFF medication state. The aim of this trial is to investigate the effect of Exenatide, 2 mg, subcutaneous injection, once weekly on disease progression represented by the change in longitudinal Positron emission tomography with 2-deoxy-2-[fluorine-18]fluoro- D-glucose (FDG-PET) in individual PD subjects, and to identify an Exenatide-related pattern in FDG-PET that will provide insight into the treatment-effect in the brain. The investigators chose the standard regimen prescribed in Type 2 Diabetes Mellitus (T2DM) and the regimen used in a recent trial in PD. The treatment period will be 18 months, and patients will be randomly assigned to either active treatment or placebo. Patients with PD diagnosis, stable on medication during the last year, and Hoehn and Yahr stage 2 or less will be evaluated for the inclusion.
Parkinson's disease (PD) is a chronic progressive nervous system disease with gradual motor impairment. Cognitive dysfunction is common in PD, even in the early stages, and it is characterized by impairments in executive, attention, memory, language and visuospatial function. Motor symptoms, in particular, alterations in gait, have been studied in clinical practice to assess disease progression, and its response to treatments, both farmacological and physiotherapeutic. Recent research on wearable technology in PD has shown that motor tests can be automated using wearable technology to eliminate human supervision and patient-reported data. Particularly, the quantitative gait analysis by using inertial devices has been proposed as a sensitive tool to longitudinally monitor gait worsening, response to dopaminergic treatment over time and cognitive dysfunction in PD patients. The aim of this prospective multicente observational study is to investigate whether the dysfunction of specific gait parameters may be correlated to cognitive impairment (Attention/Executive Function Domain) in a cohort of ambulatory PD patients followed for 3 years.
This study aims to determine the most effective dose of light therapy to improve sleep in people with Parkinson's Disease. Four groups of participants will receive bright-white or dim-red light therapy at different times throughout the day.
SUMMARY Rationale: For persons with Parkinson's disease (PD), medical decisions are based almost exclusively on periodic in-clinic evaluations by a neurologist or a nurse. For a variety of reasons, such "snapshots" are unable to capture the actual impact of PD on the patient's functioning in their own home environment. Outpatient evaluations cannot detect rare and typically domestic events, such as falls. In addition, episodic visits are not well suited to detect changes in important lifestyle issues, such as gradual declines in physical activity. Objective: To objectively, continuously and accurately collect detailed information on (changes in) physical activity and fall patterns among patients with PD in daily life. Study design: Observational cohort study in 200 patients with PD, with a 12 month follow-up period. Study population: Patients with PD (n=200), with an increased fall risk (i.e. at least one fall within the last six months). Intervention (if applicable): This study does not include an intervention. After a baseline assessment on demographics and PD symptoms, patients will use a remote monitoring system at home (a pendant falls detector) combined with an smartphone application aimed at falls self-reporting, and an application to report medication intake for 12 months. A similar set up (i.e.Vital@Home) has been previously tested on feasibility (Dossiernummer: 2017-3382). Additionally, patients will report sleep patterns through paper-based diaries. Main study parameters/endpoints: The main study parameters are physical activity and number of falls. They are remotely registered by the pendant falls detector. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: In this study, no invasive measurements will be performed. The participation is free of risks. Subjects could potentially benefit personally from participating in this study, as they can use the devices for free during the study and receive periodically feedback about physical activity and the occurrence of falls.
To compare the clinical outcome of patients with Parkinson's disease (PD) treated with directional deep brain (dDBS) stimulation undergoing subthalamic deep brain stimulation operation (STN-DBS) under general anesthesia versus local anesthesia.
The Investigators aim to identify speech and language markers that provide information on cognitive function and predict cognitive decline in Parkinson's disease. The Investigators will administer speech tasks and cognitive assessments to participants with Parkinson's disease and healthy controls. The Investigators will also explore the associations between genetic factors and speech and cognitive status in Parkinson's disease.
The New York Stem Cell Foundation (NYSCF) Research Institute is performing this research to study different conditions and diseases by using cells from the body (such as skin or blood cells). NYSCF uses these samples to make stem cells and other types of cells, conduct research on the samples, perform genetic testing, and/or store these samples for future use. Through this research, scientists hope to identify future treatments or even cures.