View clinical trials related to Parkinson's Disease.
Filter by:This study will be an open label, dose escalation study to investigate the safety, tolerability, pharmacokinetics and pharmacodynamics of repeated daily quaque die (QD) doses given over 21 days (Day 3 to Day 23) to sequential cohorts of subjects with Parkinson's disease. Each cohort will have 2 study periods. For each cohort, subjects will enter Period 1 and if they meet criteria, approximately 12 subjects will be enrolled into Period 2 and dosed with PF 06649751. Based on results observed in a previous study, Cohorts 1 and 2 will not be conducted. Cohorts 3 - 6 will test doses uptitrated to 5 mg, 15 mg and 25 mg QD. Doses may be modified based on emerging safety, tolerability and PK data, but the maximum daily dose that will be given in any cohort will have PK predictions at steady state that are anticipated to be below toxicokinetic limits. An option for down titration to the previous dose level is available should the investigator consider that an AE is intolerable. Following down titration, a single up titration to the next dose level may be attempted if the subject remains symptom free for at least 48 hrs. Safety, tolerability and PK data of Cohort 3 will be reviewed prior to initiating the dosing in Cohorts 4 and 5. Available safety, tolerability and PK data up to Day 24 of at least 5 subjects from Cohorts 4 will be reviewed prior to initiating the dosing in Cohort 6.
This randomized, controlled trial (RCT) evaluates the benefits of expressive compared to neutral writing in individuals with Parkinson's Disease and their support persons. Participants will be randomly assigned to complete three, 20 minute sessions of expressive or neutral writing. Participants will complete evaluation of outcomes at baseline, immediate post, 4 month and 10 month follow ups to establish if benefits remain over time. Impact of these therapies on thinking abilities, physical health, and patient and support person ratings of thinking skills, mood and quality of life will be evaluated. Expressive writing is hypothesized to result in greater improvements and/or stability of function on neuropsychological tests of attention, working memory, learning, and memory skills compared to the neutral writing condition. Results from this study will determine whether brief writing exercises are easily used by and beneficial for individuals with Parkinson's Disease and their support persons. If positive benefit is observed, information from this study will be used to further optimize these therapies for larger trials designed to evaluate the value of the therapies for individuals with Parkinson's Disease and their support persons.
Parkinson's Disease (PD) is a movement disorder causing either uncontrolled movement, slowness of movement, slowness of initiation of movement or rigidity of muscles. Deep Brain Stimulation (DBS) is the FDA-approved method for patients who no longer get effective treatment from the best available medication. The location in the brain where the electrode is placed during DBS surgery for PD is called the Subthalamic Nucleus or STN. This study aims to investigate another location in the brain, the Substantia nigra pars reticulata or SNr. The SNr is also known to be involved in motor control of muscles and may be involved in the process by which the initiation of movement occurs.
This is a follow-up study to assess safety and clinical activity of continued AFFITOPE® PD01A vaccinations in patients with Parkinson's disease. Patients, who have already participated in AFF008 will be involved and will be receive one boost immunization with AFFITOPE® PD01A. One study site in Vienna (Austria) will be involved. In addition, up to 8 patients will be offered participation within an untreated control group.
We aim to investigate the higher level mechanism of gait disorders in PD patients by ambulatory recording of electroencephalographic (EEG) and leg electromyographic (EMG) signals during unconstrained walking. Independent component analysis will be conducted for signal analysis. The connectivity among different brain regions will also be investigated. The PD patients received deep brain stimulation will be recruited for the study. The local field potentials recorded from sub-thalamic nuclei and/or PPN will be recorded concomitantly with EEG and leg EMG signals during unconstrained walking in PD patients to assess the roles of these deep structures in ambulation and their functional connectivity with other brain regions during walking.
Cognitive dysfunction (impaired memory, thinking, etc) frequently occurs in Parkinson's disease (PD), often progresses to dementia, and profoundly affects quality of life. Obstructive sleep apnea (OSA) is a common disorder in the general population that is treatable with positive airway pressure (PAP) therapy. It is known to impair cognitive function, but whether treatment improves cognitive function is less clear. When already affected by a degenerative process like PD, the brain might be more vulnerable to the effects of OSA, and more responsive to OSA treatment. To date, OSA has not been recognized as a significant factor in PD. In preliminary work in PD patients, the investigators have found an association between OSA and poor cognition, and cognitive improvement with PAP therapy. The investigators now wish to more rigorously evaluate the effect of OSA treatment on cognitive function in PD in a randomized controlled trial. The investigators primary objective is to assess, in PD patients with OSA and cognitive deficit, the effect of OSA treatment on global cognitive function. The investigators will also assess other non-motor symptoms of PD, quality of life, and specific domains of neurocognitive function. PD patients will be recruited from the McGill Movement Disorders Clinic and other Quebec Parkinson Network Centres. Participants will need to have evidence of cognitive deficit and presence of OSA on screening diagnostic polysomnography (sleep study). Ninety subjects will be randomly assigned to PAP or nasal dilator strips. Detailed neuropsychological testing and other measurements (including quality of life) will be done at baseline, 3 months and 6 months. At the end of the study period, subjects will have polysomnography on their respective treatment to assess efficacy with respect to OSA treatment. This study may demonstrate that a non-pharmacologic intervention has the potential to have a marked beneficial impact on cognitive function and quality of life in a significant proportion of PD patients.
This study will compare the effects of placebo and donepezil, a drug that helps conserve concentrations of the neurotransmitter, acetylcholine, on measures of balance and gait in subjects with Parkinson's disease (PD). This study is a double-blind, placebo controlled, cross-over randomized clinical trial. Short-latency afferent inhibition (SAI), a physiological index of cholinergic function will be measured to determine if the deficits in balance and gait correlate with abnormalities of the SAI and if SAI is altered by donepezil as a measure of drug efficacy. Cognitive tests like the Attention Network Test (ANT) will be administered to determine if changes in gait and balance are mediated by changes in attention. The results of this study will be the most direct test of the hypothesized role of cholinergic neurons and the neurotransmitter, acetylcholine in terms of gait and balance. The study is exploratory because it is not known whether donepezil will affect gait, balance or attention, nor which measures of gait, balance or attention will be sensitive to drug manipulation. The study's immediate goal is to determine the potential utility of cholinergic manipulation as a strategy for preventing or treating balance and gait dysfunction in PD. The findings of this trial are intended to lead to more sharply focused questions about the role of cholinergic neurons in balance and gait and eventually to Phase II B trials to determine clinical utility of cholinergic manipulation to prevent falls and improve mobility.
The purpose of this study is to determine whether people with Parkinson's disease (PD) experience reduced perception of respiratory resistive loads versus healthy adults in the same age group. Further, the study will determine whether people with PD and trouble swallowing experience even more reduction of their perception of a respiratory resistive load.
Only one study has evaluated the effect of TENS in LUTD in Parkinson's syndromes. It was reported at the congress of the "Société Interdisciplinaire Francophone d'UroDynamique et de Pelvi-Perinéologie" (SIFUD-PP) in 2011 by Ohanessian et al., and comprised 6 female patients with Parkinson's disease (PD) or multisystem atrophy (MSA), with overactive bladder. Transcutaneous electrical nerve stimulation, 20 minutes daily for 6 weeks, was associated with subjective improvement of LUTD assessed with the Patient Global Impression of Improvement (PGI-I) in 5 of the 6 patients. In view of the encouraging results of this pilot study, we hypothesize that TENS treatment may improve LUTD in patients with a Parkinson's syndrome, Parkinson's disease (PD) and multisystem atrophy (MSA).
Fatigue is one of the most common and debilitating symptoms experienced in Parkinson's Disease (PD) and Multiple Sclerosis (MS). There are multiple proposed mechanisms of disorder-related fatigue, however, it is unknown whether PD or MS patients experience compromised blood lactate responses to an acute bout of exercise, subjecting them to exercise-related fatigue. These populations may experience higher energy expenditure at rest due to increased rigidity, however, limited data exists investigating resting energy expenditure in these populations. Researchers hypothesize that PD and MS patients will display higher resting energy expenditure than healthy age-matched controls, and that level of energy expenditure will correlate with amount of rigidity or spasticity. Also, we hypothesize that baseline levels of lactate will not be different between PD/MS and control groups, but post-exercise blood lactate levels will be significantly higher in the PD/MS groups.