View clinical trials related to Parkinson's Disease.
Filter by:This study is a double-blind, randomized, placebo-controlled, 2-way crossover study to evaluate the safety of CVT-301 levodopa (l-dopa) when co- administered with the first daily dose of oral levodopa/carbidopa for early morning OFF symptoms in patients with Parkinson's disease (PD).
Parkinson's disease (PD) is a neurodegenerative brain disorder that impairs the ability to perform functions such as grooming, dressing, cooking, and other activities of daily living. PD affected between 4.1 and 4.6 million people worldwide in 2005, and it is projected that up to 9.3 million people will be affected by 2030. Although current pharmacological therapies provide beneficial effects on motor symptoms of the disease (tremor, rigidity, and bradykinesia), intolerable disability eventually develops in most patients. A disease-modifying therapy that slows disease progression is a major unmet medical need in PD. Numerous agents have neuroprotective effects in pre-clinical laboratory models, but none have been shown to have indisputable disease-modifying effects in clinical trials for patients with PD. The purpose of this research study is to investigate how the brain and motor behavior changes in PD over time in response to rasagiline which is a monoamine oxidase-B(MAO-B) inhibitor. The drug rasagiline will be tested in this study as the MAO-B inhibitor. Rasagiline has been prescribed for many years to treat symptomatic Parkinson's disease. It is FDA approved for the treatment of Parkinson's disease but has not been shown to slow disease progression. The outcome and impact of this study will provide the first evaluation of MAO-B inhibitors at slowing the progression of the nigrostriatal pathway using advanced Magnetic Resonance Imaging (MRI) and functional Magnetic Resonance Imaging (fMRI) methods in PD.
This study investigates the central mechanisms of Overactive Bladder (OAB) in Patients with Parkinson's Disease (PD). The plan is to enroll 10 adults with Parkinson's disease and Overactive bladder (PD + OAB) and 10 adults with Parkinson's disease only (PD). Both groups will undergo fMRI (functional MRI).
The purpose of this study is to the effect of three single oral doses of nebicapone (50 mg, 100 mg and 200 mg) on the levodopa pharmacokinetics when administered in combination with a single-dose of controlled release levodopa 200 mg/carbidopa 50 mg (Sinemet CR 200/50).
The purpose of this study is to investigate the tolerability and safety of three multiple dose regimens of nebicapone (BIA 3-202 100 mg, 200 mg, and 300 mg 6 times daily) in healthy volunteers. To characterise the steady-state pharmacokinetic and erythrocyte COMT inhibition profiles of nebicapone in healthy volunteers.
The purpose of this study is: To determine the rate and routes of excretion of BIA 3-202 and the mass balance in urine and faeces To determine the kinetics of total radioactivity in blood To determine the kinetics of total radioactivity in plasma To determine the kinetics of BIA 3-202 and its metabolites in plasma
Treatment resistant motor features, such as postural instability and freezing of gait are common in people with Parkinson's disease and major contributors to morbidity and mortality. This project will use sleep studies, quantitative motor assessments and magnetic resonance imaging to examine the relationship between abnormally increased muscle activity during rapid eye movement sleep and the development and progression of treatment-resistant postural instability and gait disturbances. Specifically, the investigators will test the hypothesis that anticipatory postural adjustments (weight and pressure shifts) during gait initiation are significantly reduced in people with Parkinson's disease who have abnormally elevated muscle activity during rapid eye movement (REM) sleep compared to individuals will Parkinson's disease whose REM sleep muscle activity is normal. In addition, the investigators will test the hypothesis that the level of RSWA at baseline is predictive of measures of motor decline (postural stability and gait) and alterations in the structure and function of locomotor brainstem networks. Since sleep disorders can emerge years before a diagnosis of Parkinson's disease, establishment of a link between sleep and treatment-resistant posture and gait disorders will help identify individuals at risk of developing these disabling motor features of disease.
Currently, there is no clear diagnostic test that can be used to confirm the diagnosis of Parkinson's disease, or a biomarker that can track its progression. Patients with Parkinson's have many abnormalities of the autonomic nervous system, which may be related to Parkinson's changes outside of the brain. A new device called the SudoScan, which measures autonomic sweating changes, may be a simple way to test for autonomic changes in Parkinson's. The investigator plan to see whether SudoScan can identify Parkinson's disease and whether SudoScan abnormalities might be present even in early (prodromal) Parkinson's stages. The investigator will assess SudoScan in a group of Parkinson's patients, normal healthy controls, patients with non-Parkinson's neurodegeneration, and patients with REM sleep behavior disorder (an early/prodromal Parkinson's state). Abnormalities will be correlated with standard autonomic tests and with skin biopsy findings Parkinson's degeneration in the peripheral autonomic fibers. If the investigator can find a reliable way to diagnose and follow Parkinson's disease, he will be able to correctly identify Parkinson's (even in its earliest stages). This will improve the chance to find protective treatments against Parkinson's, by preventing false diagnosis and by providing a new marker to track disease progression. If successful, the investigator will aim to validate the findings on a large sample of Parkinson's and also to track changes over time in the original cohorts
This will be a randomised, crossover, double-blind, double-dummy, active-controlled, multicentre, phase II proof-of-concept study in Parkinson's Disease (PD) patients with end-of-dose wearing-off (motor fluctuations).
The purpose of this study is to investigate the tolerability, pharmacokinetic profile of BIA 3-202 and its metabolites, and the pharmacokinetic and pharmacodynamic interaction between 4 different single doses of BIA 3-202 (50 mg, 100 mg, 200 mg and 400 mg) and a single dose of standard levodopa 100 mg/benserazide 25 mg (Madopar® 125) in adult male and female healthy volunteers.