View clinical trials related to Parkinson Disease.
Filter by:The main goal of this research proposal is to provide, for the first time in humans, a wider understanding of the role of the noradrenergic system both in health and illness (Parkinson's disease) through the use of a newly developed radiotracer (11Carbon [11C]Yohimbine) visualizing alpha-2 (α2) adrenergic receptors (AR) combined with cutting-edge technology, the hybrid positron emission tomography (PET)/magnetic resonance imaging (MRI) scanner. The secondary aim of this study will be to determine whether the expected age- and Parkinson's disease (PD)-related changes in the noradrenergic system are paralleled by changes in neuropsychological performances (such as cognitive, motor and/or olfactory abilities).
This home-based study is a randomized (1:1) placebo-controlled trial of a single infusion of zoledronic acid-5 mg (ZA) for the prevention of fractures in men and women aged 60 years and older with Parkinson's disease and parkinsonism with at least 2 years of follow-up. A total of 3500 participants will be enrolled and randomized in the United States. Participants, follow-up outcome assessors, and study investigators will be blinded to assigned study treatment. This trial is funded by the National Institute of Aging.
Gait impairments of patients with Parkinson's disease (PD) limit the independence in the daily activities and sensibly increase the risk of falls. New gait analysis methods, based on wearable inertial sensors, have been proposed to track the gait features during treatment and in real-life conditions. Gait training based on auditory cues as Rhythmical Auditory Stimulation (RAS) have preliminarily shown positive effects improving gait velocity, stride length, step cadence of walking in PD. In the current project, the research group will aim to develop a smartphone application (Parkinson App Smartphone Aimed: P.A.St.A.) integrated with sensors and RAS. In a second time, investigators will analyze the spatio-temporal gait parameters obtained by the wearable sensors and the sociodemographic and clinical data, thus generating a big data set, to improve the knowledge about current pharmacological therapies and rehabilitation.
Idiopathic Parkinson's syndrome (IPS) is one of the most common neurodegenerative diseases. The prevalence and significance of this disease is continuously increasing in the course of demographic change. For many decades, the focus of diagnostics and therapy was on the motor symptoms of IPS. Only in recent years, it has been recognized that Parkinson's patients also suffer from a variety of non-motor symptoms. These have a decisive influence on the patient's quality of life. As one of the most common non-motor symptoms, 55 to 80% of IPS patients suffer from urinary dysfunction. This is associated with a very high impairment of quality of life due to a high degree of stigmatization and impairment of social participation. In clinical everyday life, Parkinson's patients regularly report the occurrence of a strong imperative urge to urinate, which occurs suddenly and is usually triggered by a certain external stimuli. Specific cognitive processing and reflection of these external stimuli seems to help overcome the imperative urge to urinate. From this clinical observation, it can be assumed that the imperative urge to urinate is subject to a certain cognitive control in the sense of targeted inhibition. The pharmacological therapy of urinary dysfunction in IPS patients is severely restricted and characterized by insufficient proof of efficacy as well as a high potential for side effects. In clinical practice, alpha-blockers and anticholinergics are frequently used, but the evidence base for IPS is inadequate. In addition, there is a highly relevant risk for Parkinson's patients of specific side effects such as orthostatic dysregulation or deterioration of cognition up to psychoses and hallucinations. This greatly limits their use especially in older IPS patients. While the use of dopaminergic medication is essential for the treatment of motor symptoms in Parkinson's patients, a large number of studies have not confirmed sufficient evidence for the efficacy of dopaminergic medication in urinary dysfunction. In addition, non-pharmacological therapy options, in particular pelvic floor training, are used to treat bladder dysfunction. Due to the lack of risk of side effects, pelvic floor training is currently recommended as a first-line therapy option for IPS patients. Initial studies have shown positive effects, but due to the lack of randomized controlled trials, a sufficient evidence base for this has not yet been established. The aim of the study is to examine whether a purely cognitive therapy approach is suitable to improve subjective and objective symptoms of urinary dysfunction in IPS patients. This therapeutic approach will be compared with the gold standard of pelvic floor training in terms of efficacy.
This is multicentre, proof of concept, randomized, double-blind, parallel-group, placebo-control study in 40 Parkinson's Disease (PD) patients. Patients will be randomized in 2 groups receiving Bumetanide or placebo for 4 months: - Group 1 (20 PD patients): bumetanide - Group 2 (20 PD patients): placebo intake identically to group 1.
It has been shown that robot-assisted therapy may be considered an effective and reliable method for the delivery of highly repetitive training useful to boost neuroplasticity. Thus, an early, intensive, repetitive and task oriented training could be an ideal strategy to facilitate relearning of motor function and to improve motor function. The ARMEO-S® is a specific upper limb electromedical device mainly used to reduce spasticity and improve muscle force. To date robotic upper limb training has been applied only in patiebts with brain injury and spinal cord lesions. Aim of the study is to evaluate the efficacy of ARMEO-S in improving upper limb agility in a sample of PD patients, as compared to traditional physiotherapy.
The purpose of the Chinese Parkinson's disease Registry (CPDR) is to develop a database of patients with Parkinson's disease in China.
Primary objective Demonstrate functional markers derived from electrophysiological signals recorded during cognitive tests. These markers should make it possible to optimize the targeting procedures of electrode implantation sites for a better effectiveness of deep brain stimulation therapy. Research hypotheses The mechanisms of action of the deep brain stimulation (DBS) involve the modulation of the activity, locally and on a large scale, of functional cortical-subcortical networks showing pathological behavior beforehand. The electrophysiological measurements in response to different tasks make it possible to highlight precise dysfunctions of these neural networks, in relation with the behavioral and / or motor disorders associated with the pathologies treated by DBS. Consequently, we hypothesize that the exploitation of electrophysiological responses during cognitive or sensorimotor tasks performed during the implantation procedure of stimulation electrodes in patients treated with DBS will allow : - To collect fundamental data to understanding the physiological functioning of basal ganglia in humans ; - To collect functional markers from the operating room in relation to the symptoms targeted by the DBS that will help in the choice of implantation site of the stimulation electrode ; - Define long-term predictive markers of DBS effects by comparing electrophysiological effects measured post-operatively and clinical scores under DBS.
The goals of this study are: 1) to identify biomarkers using neuroimaging that are associated with progression rate using statistical methods, and 2) to identify biomarkers that are associated with the differential diagnosis of Parkinson's disease and atypical parkinsonism.
Phase II of this study includes a pragmatic clinical trial which will take place at Northwest Rehabilitation Associates (NWRA) in Salem, OR to verify the efficacy of the system in a physical therapy clinic.