View clinical trials related to Parkinson's Disease.
Filter by:The purpose of this research study is to test the effect of SYN115 compared to placebo (a "sugar pill" that looks like SYN115 but does not include active drug) on movement during the "on" and "off" states as well as other symptoms that some patients with Parkinson's disease experience. This study will also look at whether or not patients with Parkinson's disease experience "side-effects" with SYN115.
The primary objective of this protocol is to analyze the sensitivity and specificity of 18F-DTBZ PET to the differential diagnosis of Parkinson's Disease (PD) and normality. Secondary, the investigators will analyze the correlation between the 18F-DTBZ binding and the severity of disease of PD and the role of 18F-DTBZ PET in the monitoring disease severity.
This is a multi-center, double-blind, placebo controlled clinical trial of two dosages of oral pioglitazone (15 milligram(mg) and 45 milligram (mg)) for safety, tolerability, and futility. Subjects who are on stable dose of rasagiline 1 mg/day or selegiline 10 mg/day for at least 8 weeks but no more than 8 months, will be randomized to one of two dosages of oral pioglitazone (15 mg and 45 mg) or matching placebo. The study will measure disease progression by the change in total Unified Parkinson's Disease Rating Scale (UPDRS) score between the baseline visit and 44 weeks.
Pain is a frequent symptom in Parkinson's disease. Previous studies have shown that pain perception was altered in Parkinson's disease patients and could be related to nociceptive cortical area hyperactivation. Repetitive Transcranial Magnetic Stimulation is an electrophysiological tool which can modify cortical excitability. Its efficacy was demonstrated in neuropathic pain. This is a randomized, double blind cross-over study. In this study, subjective pain threshold (using thermal stimulation (Thermotest)).will be evaluated in 3 groups of subjects: healthy volunteers, painful Parkinson's patients and pain free Parkinson's disease patients. Each group will receive a high frequency Repetitive Transcranial Magnetic Stimulation and placebo stimulation in different order with a gap of one week. The investigators supposed that a 20 Hz Repetitive Transcranial Magnetic Stimulation session with an infraliminary intensity on the primary cortical motor, modulating nociceptive cortical areas activity, could modify the nociceptive threshold perception in Parkinson's patients.
The aim of this study is to investigate the impact of DBS not only no motor outcomes, but also on neuropsychological and psychiatric aspects and on quality of life in young patients with a short history of disease.
The overall goal of this study will be to assess and monitor the adherence to and effectiveness of the new prescribing guidelines for cabergoline. Specific objectives will be to assess: 1. The indication for use of cabergoline (Parkinson, hyperprolactinemia, other) 2. Prior treatment strategies in patients who start cabergoline treatment for Parkinson's Disease 3. The percentage of cabergoline users who are prescribed doses above 3 mg per day 4. Whether cabergoline users are monitored by echocardiography prior and during treatment. 5. The incidence and prevalence of valvular fibrosis
To evaluate the efficacy of a fixed dose of Azilect® (1 mg/day) vs placebo as assessed by the change from baseline in mean total daily OFF time during 18 weeks of treatment in levodopa-treated Parkinson's Disease (PD) patients with motor fluctuations in Korea.
Depressive symptoms of Parkinson's disease (PD) patients are major predictors of their prognosis and quality of life. Using subthalamic nucleus (STN) deep brain stimulation (DBS) as an antidepressant could be a promising new direction. Existing methods of adjustment of DBS parameters aim at amelioration of the motor signs and therefore with inactivation of the STN motor territory only. Although the DBS parameter setting is believed to influence the mental state, there is no data that correlates stimulation parameters with mental state. The investigators hypothesize that the emotional territories of the STN have distinct electrophysiological properties and that specific stimulation of these emotional territories can influence the mental state and thus treatment with emotionally-adjusted DBS can improve the psychiatric symptoms of PD. In this project, the investigators intend to map the emotional territories of the STN using neuronal (single units) responses to emotional voices and to identify the emotional spectral signature of the STN single unit activity using spectral analysis and neuronal responses to emotional voices. The investigators also intend to investigate the emotional processing of PD patients by manipulating the stimulation of the subthalamic area. The proposed study will combine neural recording, stimulation and psychological tests to shed new light on emotional processing in the basal ganglia, as well as to provide better treatment for PD emotional disorders,
The investigators plan to conduct a first-stage experiment by recruiting ten subjects, including five PD patients and five non-PD patients. In the beginning, the information collected by the portable motion detector is used to compare the difference in the activities performed by PD and non-PD patients. Besides, the algorithm will be developed to identify the gait patterns of PD patients. Once the system detects the abnormal gaits, such as shuffling and festinating steps or freezing of gait, auditory cues will be given to the PD patients and caregivers by their sides. It can help the patient to maintain normal gait and improve the effectiveness of rehabilitation, as well as preventing falls in daily activities. Moreover, in case of accident falls, the real-time fall detection mechanism alerts the nearest caregiver for instant support and delivers this information to the remote family members and medical personnel. After that, a second-stage experiment will be carried out by recruiting another five PD patients. By comparing the gait patterns identified by the system against those identified manually by the staff, the performance of the proposed system on fall prevention will be examined. For the patients and their family members, the developed system enhances the patients' safety in their daily activities. As for the medical personnel, it serves as an affordable tool that benefits the rehabilitation of PD patients in an easy manner.
The freezing burden will be quantified in subjects with Parkinson's Disease (PD)before and after 6 weeks of training. Two types of interventions (20 subjects in each group) will be tested: 1) Open-loop group (OLG); 2) Closed-loop group (CLG). Each session of the OLG training includes walking courses aimed at provoking freezing episodes. The experimenter will trigger an auditory rhythmic stimulation (RAS) in walking conditions likely to invoke freezing (e.g., turning) and the subject will learn to synchronize his/her gait with the auditory cues, i.e., to keep the walking pace and coordination and, as a result, to avoid freezing. Similar principles will apply for the CLG training; however, the RAS will be elicited automatically by a device that recognizes an approaching freezing episode.