View clinical trials related to Parkinson's Disease.
Filter by:The overall goal of the proposed research is to evaluate the use of [11C]SY08 as a PET radiotracer for aggregated alpha synuclein (αS) in individuals with Parkinson's disease (PD), Multiple system atrophy (MSA), Dementia with Lewy Bodies (DLB) and healthy controls. The purpose of this study is to evaluate the use of [11C]SY08 as a PET radiotracer for αS fibrils in individuals with PD, MSA, DLB and healthy controls. The specific aims of the current study are: 1. To determine brain uptake, distribution, and kinetics of [11C]SY08 in healthy individuals. 2. To determine brain uptake, distribution, and kinetics of [11C]SY08 in patients with alpha synuclein aggregates in the brain, including PD, DLB and MSA. 3. To determine human dosimetry of [11C]SY08 in healthy individuals An intravenous bolus injection of [11C]SY08 will be administered per subject for brain PET imaging.
This is an exploratory, observational study that will use a novel handheld device - The iTremor ONE, which has been developed to rapidly, non-invasively assess and evaluate OMT frequency. This device uses incident laser technology directed at the sclera. PwPD who meet the inclusion criteria will participate in a home-based assessment involving cognitive, motor (using the UPDRS-III) and OMT measures. With OMT as the primary outcome, assessment with the iTremor is incredibly quick, taking just three seconds to obtain a reading. PwPD will be assessed both 'off' and on their anti-parkinsonian medication. 'Off' is defined as a 12Hr overnight washout period where participants are tested in the morning prior to their first dose. PwPD will also be invited into the laboratory to perform extensive cognitive assessments along with an assessment of balance, gait, and turning using wearable sensors. 40 PwPD, 20 with suspected PD, and 40 age-matched healthy control participants will be recruited for assessment of OMT. Ten PwPD will complete a test-retest reliability assessment at the same approx. time, exactly one week after their initial visit.
This is a 6-week exploratory clinical study, designed to test whether treatment with peroneal electrical trans-cutaneous stimulation can have a beneficial effects on symptoms associated with Parkinson's diseases and essential tremor.
Physical therapy approaches for balance and walking deficits in Parkinson's disease (PD) have limited effectiveness, with mostly short-lasting benefits. An exoskeleton is a device that straps to the legs and provides a passive force to assist people to better ambulate. The goal of this study is to establish the feasibility and safety of a lightweight exoskeleton on mobility and fall reduction in people with PD. As most PD patients eventually require assistive mobility devices, the exoskeleton represents a new option for increased, mobility, quality of life, and independence. Qualified subjects will come to the clinic twice weekly for six weeks (12 total visits) and wear the exoskeleton device while walking under the supervision of a trained physical therapist. Study staff will also interview participants and assess their PD symptoms, quality of life, and overall mobility. This study hopes to establish exoskeletons as modern, standard of care devices, which allow people with PD to maintain more independent and productive lives.
The primary objective is to determine the tolerability and efficacy of a low-dose ketamine infusion for the treatment of Levodopa-Induced dyskinesias (LID), both acutely and during post-infusion evaluation (week 2-6), as measured by a change in patient diaries of dyskinesia and the UDysRS. Secondary objectives include observing the effects of ketamine on various symptoms of Parkinson's disease and Levodopa side effects. This includes the duration of "off," "on without dyskinesia," and "troublesome dyskinesia" time during waking hours, effects on chronic and acute pain, quality of life, and other general PD symptoms as noted in the Unified Parkinson's Disease Rating Scale. There is no highly effective treatment for levodopa-induced dyskinesia. This research study will use intermittent infusions of ketamine, on 10 volunteer subjects, which could provide significant improvement in dyskinesia utilizing a novel mechanism of action compared to current treatment strategies. Positive results in this study could lead to new novel treatments for dyskinesia and further development for other PD symptoms such as depression and pain.
Through rTMS, motor dysfunction and non-motor dysfunction of PD patients can be improved, working and living ability and quality of life of patients can be improved, and social burden and family burden can be reduced.
This is a multicenter, 12-week, placebo-controlled clinical trial of CVN424 150 milligrams (mg) tablets in early, untreated Parkinson's Disease (PD). Participants will be randomized in a 1:1 ratio to CVN424 150 mg or placebo at the Baseline Visit. The purpose of this study is to measure effect on motor features with CVN424 tablets compared to placebo in early, untreated PD and to evaluate the potential of CVN424 to improve motor and non-motor functions in participants with early PD who are not taking dopaminergic or anti-PD therapies.
At 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.
A randomized controlled trial is to be conducted to confirm the efficacy and safety of intramuscular injection of botulinum toxin in the treatment of Parkinson's bladder overactivity.
The purpose of this study is to demonstrate the safety and effectiveness of the PINS Deep Brain Stimulation (DBS) system, including the G107R/G107 IPG, L305/L306 directional leads, E204 extensions and related system components.