View clinical trials related to Parkinson Disease.
Filter by:This research will develop novel and accessible way to deliver effective and customized rehab to those suffering from common and devastating neurodegenerative condition called Parkinson's disease. The investigators will examine the efficacy of novel rehab technique that can be monitored and modified in real-time but over virtual interface using a remotely located device in a paradigm called dynamic cycling. This technology will benefit thousands of Veterans who need customized and cost-effective rehab but cannot travel to specialized facilities due to inevitable limitations such as pandemics or because of lack of resources, social support, frailty, or home-bound status.
The aim of the study is to determine potential anti-dyskinetic properties of CPL500036 (PDE10A inhibitor) in Parkinson disease patients suffering from levodopa Induced dyskinesia. The study is to determine the efficacy and dose response of two CPL500036 doses, compared with placebo.
A Multi-Center, Controlled Study to Evaluate Use of CereGate Therapy to Reduce Freezing of Gait in Participants Diagnosed with Parkinson's Disease.
People with PD have lower cardiopulmonary function than their age matched peers. This decline can further impair a person's ability to participate in exercise and daily activities. Furthermore, the limitations in cardiopulmonary function can have a severe impact on mortality. There is evidence indicating the positive changes IMT can have on cardiopulmonary function in people with PD. Through intensive daily exercise people with PD have shown improvements in maximum inspiratory pressure and maximum expiratory pressure though detraining does occur when the intervention is not continued. The purpose of the proposed study is to determine if improvements in expiratory muscle strength can be maintained with a maintenance inspiratory muscle training program. The hypothesis is that there will be a significant change from baseline at the three and six month follow ups.
The purpose of this project is to increase our understanding of the early state and temporal evolution of neuroplastic changes in the cortex and subthalamic nucleus (STN) of people with PD, and the relationship of these changes to the emergence and expression of PD motor and non-motor signs. Neurophysiological biomarkers derived from this work may be important for the early detection and prediction of progression of disease. They can also provide the means to assess the efficacy of interventions designed to prevent or slow disease progression.
The overall goal of this protocol is to: Evaluate [18F]UCB-2897 as an α-synuclein targeted radiopharmaceutical. The primary objective is: • Confirm a specific α -synuclein signal with [18F]UCB-2897 in participants with PD and/or MSA relative to healthy volunteers Secondary and exploratory objectives are: - Determine the safety and tolerability of microdose [18F]UCB-2897 - Evaluate preliminary dosimetry of [18F]UCB-2897 Additional exploratory objectives are: - Determine the pharmacokinetics / metabolism of [18F]UCB-2897 - Determine the optimal imaging protocol for [18F]UCB-2897
Parkinson's disease (PD) impacts different types of neural oscillations in the brain, including beta (13-30Hz) and gamma oscillations (30-80Hz), which contributes to PD's cardinal symptoms of resting tremor, rigidity, bradykinesia (slowness of movement), and gait instability. The investigators' lab has developed a non-invasive method of increasing gamma power in the brain using Gamma Entrainment Using Sensory Stimulation (GENUS) through light, sound, and tactile stimulation devices. For this study, 40 participants with mild Parkinson's disease will be recruited, and the investigators will assess their brain waves with electroencephalogram (EEG) before, during, and after light, sound, and tactile stimulation to determine the safety, feasibility, and optimization of GENUS as a potential therapy in the PD population.
The Luxembourg Parkinson's Study is an ongoing longitudinal nationwide monocentric observational study. It collects extensive clinical, molecular, genetic, and digital device-based longitudinal data, as well as foreseen post-mortem diagnostic validation (Hipp et al., 2018). The cohort consists of more than 1,600 participants from Luxembourg and the Greater Region, comprising patients with typical PD or atypical parkinsonism - irrespective of disease stage, age, cognitive status, comorbidities, or linguistic background - followed-up annually and age- and sex-matched healthy control subjects followed-up every 4 years. To provide a large, longitudinally followed, and deeply phenotyped set of patients and controls for clinical and fundamental research on PD, the investigators have implemented an open-source digital platform that has been partly harmonized with other international PD cohort studies. This effort is flanked by comprehensive biosampling efforts assuring high quality and sustained availability of body liquids and tissue biopsies (including blood, urine, stool, saliva, hair, skin biopsy and cerebrospinal fluid). All data and samples are stored, curated, and integrated into state-of-the-art data and biobank facilities.
This study will be evaluating the safety and efficacy of insulin and glutathione in subjects with Parkinson's Disease compared to placebo.
Parkinson's disease affects 1 in 100 people over the age of 60. Parkinson's disease (PD) is a progressive disease of the nervous system that affects movement, produced by the destruction of dopaminergic neurons found in a region of the brain called the basal ganglia Over time, different strategies have been developed to treat and slow the progress of the disease, including pharmacological, rehabilitative and even surgical treatments. Transcranial direct current stimulation (tDCS) is a brain stimulation technique that delivers a low-intensity electrical current to the scalp, usually between 1 and 2 mA over approximately 5 to 30 minutes. The tDCS technique is used with the aim of enhancing a specific brain activity through the neuromodulation of neuronal excitability. In pathologies such as PD, these therapies have been shown to induce immediate after-effects in the brain that translate into reduced gait freezing and improvements in executive function and mobility. In addition, the combined effects of tDCS and physical therapy on the walking ability of PD patients have been studied, where it was shown that anodic tDCS and physiotherapy could be used as a combination treatment to improve patients' gait speed. Another potential therapeutic tool in the treatment of PD consists of the use of sound stimulation with beat frequencies similar to the step. Specifically, this technology is characterized by presenting two tones of different frequencies for each ear in order to influence the mood and mental performance of the listener. This protocol is proposed in order to evaluate the effect of tDCS combined with auditory and binaural stimulus strategies during gait therapy in patients with Parkinson's disease.