Repetitive Transcranial Magnetic Stimulation(rTMS) Regulating Slow-wave to Delay the Progression...
Parkinson's DiseaseAt present, no drug therapy has been proven to delay the progression of Parkinson's disease (PD). rTMS, as a non-invasive neuromodulation method, can regulate Slow-wave sleep (SWS). SWS is recognized closely related to neurodegeneration. However, there has been no clinical studies on if rTMS could delay the progression of PD by regulating SWS. The main purpose of this study is to explore the changes of SWS in non-rapid eye movement (NREM) sleep period in PD patients by using rTMS, and the relationship with potential improvements of SWS and motor symptom delay. The study aims to find a potential new treatment strategy to delay the neurodegenerative process in PD patients by modulating SWS by rTMS.
Detecting the Rest Tremor Associated With Parkinson's Disease Using Analysis of the Muscle Contractions...
ParkinsonCerebellar Tumor4 moreResting tremors associated with Parkinson's disease (PD) remains difficult to quantify and track during disease progression. This study propose to explore the rhythmicity of distal muscle contractions in the upper limb to characterize resting tremor and discriminate it from cerebellar tremor (CT) based on the frequency spectrum of the EMG signal.
Abbott DBS Post-Market Study of Outcomes for Indications Over Time
Movement DisordersParkinson Disease5 moreThe purpose of this international study is to evaluate long-term safety and effectiveness of Abbott deep brain stimulation (DBS) systems for all indications, including Parkinson's disease, essential tremor or other disabling tremor and dystonia.
GLP1R in Parkinson's Disease
Parkinson DiseaseThe purpose of the study is to test the neuroprotective and anti-inflammatory properties of semaglutide in idiopathic Parkinson's disease (PD)
Personalizing Exercise for Parkinson Disease
Parkinson DiseaseThe overarching aim is to determine the benefits of Parkinson-specific exercise programs and general exercise patterns on physical function and disease-related quality of life among people with Parkinson Disease (PD). The significance of this project is that millions of individuals experience adverse consequences of PD and there is strong evidence that structured exercise programs have beneficial effects on motor function and PD-related quality of life. Participation in this study involves online surveys upon enrollment (i.e., baseline) and at 3 months, 6 months, 9 months, 1 year, and 2 years.
Vigor and the LDR in Parkinson Disease
Parkinson DiseaseParkinson disease (PD) is a common disorder in which reduced speed of movement results from inadequate brain production of the chemical dopamine. The most effective treatment for PD is the drug levo-dopa, which partially replaces brain dopamine. Despite decades of successful use, how levo-dopa improves speed of movement in PD is not understood. This observational study recruits participants who have been prescribed levo-dopa by their treating physicians. Before their first dose, immediately after their first dose and later, when their dose has been stabilized, they will engage with the research team to participate in a few simple experiments to measure speed, grip strength, tremor, and stability (on and off of treatment). The purpose of these experiments is to understand how levo-dopa treatment in Parkinson disease enhances movement speed. An important but not understood component of levo-dopa action, the Long Duration Response (LDR), lasts for days to weeks. A basic function of dopamine signaling in the brain is modulation of motivation - the coupling between effort and action values. These experiments will determine if the LDR is associated with relative normalization of motivation function in the brain. The motivation behavior of recently diagnosed PD participants will be examined before and after treatment with levo-dopa to determine if the magnitude of the LDR is correlated with improvements in motivation behavior.
Imaging a Cholinergic Biomarker of Cognition in Parkinson's Disease
Parkinson's DiseaseThis is an imaging study designed to illuminate the function of the cholinergic system and its association with cognitive skills in people with Parkinson's disease. The hypothesis of this study is that there will be an association between cholinergic terminal density, sex hormones, and cognitive functioning. Participants will receive a PET and MRI scan along with a battery of neurocognitive tests at baseline and again at 18 months follow-up. Hormone levels will be measured at baseline.
Telehealth in Lewy Body Dementia
Lewy Body Dementia With Behavioral DisturbanceLewy Body Parkinson Disease1 moreLewy body dementia (LBD) is the 2nd most common neurodegenerative dementia in the US. Optimal care requires an interdisciplinary approach, however often faced barriers include rural residence, limited access to specialists, travel distance, limited awareness of resources, and physical, cognitive, and behavioral impairments making travel to appointments challenging. Delivering interdisciplinary care remotely using video technology has the potential to improve access to care for patients with LBD.
Understanding Motivation in Parkinson's Patients Through Neurophysiology
Parkinson DiseaseDeep Brain Stimulation1 moreThe study's aim is to better understand motivation and value-based decision making in Parkinson's patients through neurophysiology using Medtronic's Percept PC DBS device.
Single-center Pathophysiological Study of the Role of Inflammation, Changes in the Intestinal Epithelial...
Parkinson's DiseaseConverging evidence from the literature suggests that digestive inflammation may play a role in the development of Parkinson's disease (PD). The investigators showed in the laboratory in a pilot study that PD patients have digestive inflammation and that the level of inflammation was inversely related to the length of the disease course. This digestive inflammation could be at the origin of an increased intestinal permeability in a subpopulation of parkinsonian patients, cause or consequence of modifications of the intestinal microbiota, thus offering a potential portal of entry for a pathogen according to Braak's theory. To opponents of this theory, it could also reflect the spread of inflammation from the Central nervous System to the Enteral Nervous System (ENS), via the brain-gut axis. Investigators' hypothesis is that digestive inflammation occurs very early in Parkinson's disease and that it is associated with hyperpermeability of the intestinal epithelial barrier and a change in the intestinal microbiota composition. The investigators propose to study the inflammation markers in the ENS of patients with a pre-motor form of PD (idiopathic Rapid Eye Movement (REM) sleep behavior disorder, n = 20), early-stage PD (<5 years, without dopatherapy, n = 20), more advanced PD (> 5 years, n = 20) and control subjects (n = 20), on colonic biopsies taken during a rectosigmoidoscopy or a coloscopy. Intestinal permeability will be measured by ex-vivo techniques (in a Ussing chamber), the composition of the microbiota will be established by sequencing 16s RNA and the lesional load of phosphorylated alpha-synuclein will be evaluated by immunohistochemistry. All of these parameters will be correlated with clinical data on the severity of PD: duration of development, age, total Unified Parkinson's Disease Rating Scale (UPDRS) motor score and axial sub-score, cognitive tests (Montreal Cognitive Assessment, MoCA), existence of a probable idiopathic REM sleep behavior disorder (REM Sleep Behavior Disorder Screening Questionnaire RBDSQ), olfactory tests, complaint of dysautonomia (SCales for Outcomes in Parkinson's disease - autonomic dysfunction, SCOPA-Aut). The analysis of inflammation markers, the intestinal barrier and the microbiota could be a first step making it possible to formulate physiopathological hypotheses on the development of PD, to propose predictive biomarkers of the disease and its severity and to design early interventions in the hope of modifying the evolutionary course of the pathological process.