View clinical trials related to Parkinson Disease.
Filter by:The aim is to establish adequate and suitable protocols for PD patients and to determine the WB-EMS effects on muscle strength, balance, walking, cognitive functions,neurotrophic factors and alpha-synuclein. Thirty-six PD patients, aged from 50 to 80 years, will be recruited and randomly assigned to two experimental groups (EGs and EGc) and one control group (CG), in order to perform dynamic movements with WB-EMS. EGs will undergo to 12-20 minutes of progressive supervised WB-EMS (4 sec. 85 HZ and 4 sec. rests) combined to light dynamic movements, two-time per week for 12/24 weeks. EGe will undergo to 12-20 minutes of progressive supervised WB-EMS 7 Hz) combined with cardiovascular training with rowing machine. CG will not perform any type of physical activity. Pre and post intervention assessment will be carried out on the following areas: physical assessment, neurocognitive, neurotrophic factors and alpha-synuclein assesments. A 3 months follow-up will be performed.
The study by giving a sleep disorder Parkinson's disease patients with different patterns of ultra-low frequency transcranial magnetic stimulation or sham stimulation, scale for assessment of the patients were observed, hematology and imaging changes before and after therapy, clear ultra-low frequency transcranial magnetic stimulation for sleep disorder Parkinson's disease treatment, to explore the mechanism of action, compare the difference between different modes.
This study seeks to establish the safety and efficacy of extended twice daily treatments for treating symptoms associated with PD. Only participants who completed the STEM-PD RCT trial are eligible for the OLE.
The purpose of this study is to evaluate the safety and efficacy of long-term administration of flexible doses of tavapadon in participants with Parkinson's Disease.
Transcranial direct current stimulation (tDCS) has shown the potential to improve symptoms in patients with movement deficits, such as Parkinson's disease and chronic stroke. However, the effects of tDCS have so far not been proven on a wider scale due to lack of knowledge regarding exactly how tDCS works. This has limited the adoption of this potentially useful therapy for patients with Parkinson's disease, chronic stroke and other conditions affecting movement. The investigators hypothesize that by studying the effects of tDCS in subjects performing a motor task, the brain signals mediating improvements in motor control will be identified. The investigators will use both noninvasive and invasive methods to explore this hypothesis. The investigators expect this combined approach to broaden understanding of tDCS application in conditions affecting movement and possibly lead to therapeutic advances in these populations.
The study is carried out as part of the GR2021 Priority project "Healthy Brains for life (Age 20-99): Digitally-enhanced personalized medicine study ANANEOS" and code numbered GR-00546 and it will look at the decentralized and remote assessment of the symptoms of preclinical stages in Alzheimer's disease and movement disorders, e.g. Parkinson's. For this study we are looking for participants aged over 45 without cognitive complaints or with subjective perception of cognitive decline or with mild cognitive complaints. Specific aims for the proposed study: a) to develop novel sensitive measures that can provide an early identification of those SCD and MCI individuals harboring AD pathology that are at high risk of cognitive worsening over time; b) to track pre-motor stages in Parkinson's disease and trials that enable active digital functional biomarkers; c) to track disease progression during pre-dementia and pre-motor stages in clinical practice and trials with measures that enable to capture subtle changes.
The investigators aim to learn more about symptoms suggestive of a neurodegenerative process.
This trial is expected to recruit patients with primary Parkinson's disease and give them four consecutive weeks of aerobic exercise to observe its effect on Parkinson's disease and explore its mechanism
This study evaluates an educational brochure tailored to caregivers of people with Alzheimer's disease, Parkinson's disease dementia, Lewy body disease, frontotemporal dementia, and vascular disease dementia. The goal of the brochure is educating caregivers about the decreased ability to detect emotion and decreased empathy that can be seen in dementia, increasing caregiver competence in providing care, and teaching caregivers ways to manage over time that lessens burden and improves quality of life.
This is a mechanistic study to determine the differential effects of the dopaminergic and cholinergic systems on attention, gait, and balance. The primary goal of the study is to evaluate the relative effects of pedunculopontine nucleus (PPN) and subthalamic nucleus (STN) Deep Brain Stimulation (DBS) on these features in persons with Parkinson's Disease (PD) who are eligible for DBS for improvement of their motor symptoms and exhibit gait instability with falls. Patients will be enrolled and implanted with bilateral electrodes in one of the approved DBS locations (subthalamic nucleus: STN), but additionally electrodes will be inserted into the experimental target, namely the PPN bilaterally.