View clinical trials related to Parkinson's Disease.
Filter by:Based on studies showing better responsiveness of motor versus cognitive symptoms to Parkinson's Disease medication, also known as dopaminergic treatments, the investigators hypothesize that comparison of resting state networks in the on versus off medication state in Parkinson's Disease patients will show greater effects on brain networks associated with motor control.
This is a multi-centre study to be conducted in Sweden and Finland. Up to 24 male and/or female patients of non-childbearing potential aged 45 to 75 years (inclusive), with a clinical diagnosis Parkinson's Disease will be randomised in the study to allow for 20 patients to complete this study.The study will evaluate the effect of 8 weeks treatment with AZD3241 on microglia activation as measured via PET examinations.
This study involves Parkinson's disease (PD). Symptoms include slow movement, tremor, and muscle rigidity. Current medications for the treatment of PD do not improve gait and balance difficulties in individuals with PD. Donepezil (study drug) has been found to reduce falls in individuals with PD. The mechanism in which this reduction of falls occurs is unclear. The investigators study will look at what aspects of gait and balance are improved by the study drug. The study drug is not approved to treat PD in the United States or other countries because we do not know enough about it.
Non-Ergot Dopamine agonists are meanwhile the drugs of first-choice in the treatment of Parkinson's disease. The receptor profile of the non-ergot dopamine-agonist piribedil is unique. In addition to agonistic effects on dopaminergic D2- and D3-receptors piribedil has adrenergic alpha-2A- and alpha-2C-receptors antagonisic properties. There is evidence from the literature that the antagonistic properties of piribedil are correlated with an improvement of cognitive function and vigilance parameters in parkinson's disease. The aim of the present non-interventional study is to investigate the safety and efficacy of piribedil during long-term therapy of patients with M. Parkinson under consideration of cognitive functions and quality of life.
Mild cognitive impairment, including difficulty with solving problems, planning, attention, or recalling information, can be a significant problem for individuals with Parkinson's disease. Even mild cognitive difficulties can lead to worse functioning, quality of life, depression, and difficulty for caregivers. Thus, ideally treatment at this stage would improve both cognitive symptoms and some of the other problems associated with these symptoms. Despite the fact that mild cognitive impairment is a serious problem for Parkinson's disease patients little is known about how best to treat it. This study is a 24-week clinical trial to see if a Food and Drug Administration (FDA)-approved drug, the Exelon (rivastigmine) Patch, is useful in treating mild cognitive impairment in patients with Parkinson's disease. Currently, the Exelon (rivastigmine) Patch is FDA-approved for the treatment of mild to moderate dementia in Alzheimer and Parkinson's disease patients.
The purpose of this study is to learn if a new brain imaging technology called DaTscan can detect subtle changes in the brain that are similar to those seen in early Parkinson's disease (PD). The results of this study may provide more information about a possible association between mild to moderate traumatic brain injury (mTBI) and PD. The objectives of this study are to define and describe a group of approximately 7,122 mTBI subjects and 7,122 subjects without mTBI (mTBI-) seen in the Emergency Rooms of NorthShore University HealthSystem during the years 2006-2011, and to select from willing eligible subjects a random sample of 100 mTBI subjects and 100 mTBI- subjects (of the same age and gender) to undergo written informed consent, neurological examinations, blood drawing for DNA extraction and storage, and DaTscan brain imaging. The investigators will compare the findings from persons who experienced mTBI (cases) to persons without a history of brain injury (mTBI- or "controls").
The primary objective of this study is to explore the efficacy and tolerability of DM-1992 compared to a standard carbidopa/Levodopa Immediate-Release (CD/LD IR) tablet (Sinemet IR) as measured by: - "ON" time with no dyskinesia or non-troublesome dyskinesia - "OFF" time
This is an observational, non-interventional and retrospective study in patients with advanced PD who have been treated with Rotigotine (Neupro®) as prescribed by physicians according to usual clinical practice in Spain. The Primary Objective will be to evaluate Non-Motor Symptoms (NMS) in advanced PD patients who have been treated with Rotigotine for at least 6 months.
Patients suffering from Parkinson's disease (PD) frequently experienced painful sensations that could be, in part, due to a central modification of nociception mechanisms. Previous studies have shown that pain perception was altered in Parkinson's disease (subjective and objective pain thresholds and pain-induced cerebral activity) and that administration of L-Dopa normalized this alteration. In the central nervous system, L-Dopa is converted in dopamine and in norepinephrine. Apomorphine (a dopamine agonist) has no effect on pain threshold and pain-induced cerebral activity. Therefore the noradrenergic system could be involved in pain alteration in PD. To assess the role of noradrenergic system in pain in patients with PD, we chose duloxetine (norepinephrine and serotonin reuptake inhibitor)because a recent study had shown that duloxetine allowed an improvement of pain clinical scores (pain questionnaires) in patients with PD. 36 patients will be enrolled in this study. We supposed that a chronic intake of duloxetine increase the pain perception level compare to the placebo. This increase would be the same than those observed with L-Dopa.
The purpose of this study is to evaluate the ability to identify individuals with dopaminergic degeneration in group of patients with a clinical diagnosis of either dementia with Lewy bodies (DLB) or idiopathic Parkinson's disease and to differentiate them from Alzheimer's disease (AD) and control subjects.