View clinical trials related to Parkinson's Disease.
Filter by:This is a feasibility and exploratory pilot study of adjuvant transcranial magnetic stimulation (TMS) to physical therapy (PT) for locomotion and balance rehabilitation in Parkinson's disease patients.
The study team proposes to treat Parkinson's patients with gait difficulty with multidisciplinary approach of medications. Single medication treatment, such as the use of cholinergic-boosting anti-dementia medication targeting cholinergic deficiency to improve executive dysfunction and attention deficit, or the use of medication boosting the norepinephrine system, have not proven effective so far in treating the gait difficulty. Anti-anxiety medications, particularly the SNRI (serotonin and norepinephrine reuptake inhibitor) medications, which also ameliorate the norepinephrinergic deficiency, have not been studied except for one successful case report using duloxetine to treat primary progressive freezing of gait. Targeting multiple mechanisms at same time, such as the combination of a SNRI antianxiety medication (also boosting the norepinephrine system, such as duloxetine) with an anti-dementia medication correcting the cholinergic deficiency (such as donepezil), or targeting a new mechanism, such as the use of anti-GABAergic medication targeting the area responsible for gait and sleep cycle (pedunculopontine nucleus area, PPNa) should be tried. Therefore, a collaboration of multidisciplinary teams among the neurology movement disorder team and cognition and sleep team, and psychiatry team is essential, which has not been tried before in studying and treating the challenging gait difficulty in Parkinson patients.
This is a multicenter, randomized, double blind, placebo controlled parallel group clinical study. Following a screening period of up to 28 days, eligible subjects will be randomized to receive adjunct treatment to oral LD/DDI (Dopa Decarboxylase Inhibitor) with continuous subcutaneous infusion of ND0612 or matching placebo for 16 weeks.
This is a randomized, placebo-controlled, parallel group, patient-blind, single-center phase I clinical trial of repeated once every 4 weeks administration by subcutaneous injection of AFFITOPE® PD01A, adsorbed to aluminium oxide in 30 patients with PD-GBA over a treatment period of 8 weeks. Patients will be randomized in a 2:1 ratio to two different treatment groups: A) 75 µg AFFITOPE® PD01A, adsorbed to aluminium oxide and B) placebo (= 1 mg aluminium oxide). Over a study duration of 52 weeks, each patient will receive 3 injections of AFFITOPE® PD01A or placebo during the participation in the clinical trial. Patients will either receive 75 µg AFFITOPE® PD01A adsorbed to 1 mg aluminium oxide or placebo (=1mg aluminium oxide). The treatment group consists of 20 PDGBA patients, the placebo group of 10 PDGBA patients. Male and female patients aged 40 to 80 years can participate in the trial. AFF010 is part of the project MULTISYN funded by the European Commission (FP7-HEALTH-2013-INNOVATION-1 project; N° HEALTH-F4-2013-602646).
The purpose of this clinical study is to allow the investigation of local field potential (LFP) signals in patients treated with DBS of the STN. This study will identify common LFP biomarkers observed as a function of disease symptoms, medication effect, fluctuations in disease, and changes resulting from adjustments from current standard practices of DBS programming. The data collected and LFP markers identified will serve as guidelines for future stimulation predicted programming.
Thousands of canines are used for therapy in health care centers throughout the United States as part of a volunteer therapy team, yet little is known about the outcomes provided by these teams. Although many studies have been published, few used randomized, controlled formats to identify whether canine therapy has an impact and any mechanisms by which any impact may occur. The purpose of this study is use a randomized, controlled setup for canine animal-assisted therapy (AAT) in patients undergoing inpatient physical therapy for stroke, Parkinson's disease, or generalized weakness deconditioning to determine whether use of AAT produces desirable outcomes, such as increased motivation, in patients.
Outcomes study to test the hypothesis that patients first identified by community-based neurologists, implanted by a networked movement disorders center, and then managed by the same community-based neurologist will have clinical outcomes comparable to movement disorders centers.
Deep brain stimulation for Parkinson's disease is a well established therapy. Current practice requires tedious adjustment of stimulation settings based on frequent patient assessments. Ultimately, the goal is to develop a system that can program itself using signals that are recorded directly from the brain on a continuous basis. Our previous work has identified abnormal electrical signals in the brain that are targeted for stimulation that can potentially be used to develop a self-programming system. In this study, the investigators will test the safety and utility of a novel adapted device that can not only deliver stimulation to the brain but also record brain signals in a patient that is implanted with a deep brain stimulation system. The purpose of this Phase I study is to understand the safety of the device as well as the relationship between these electrical signals measured from deep within the brain and Parkinson's symptoms and how these signals can be used to guide a self-programmed system. The study will entail implanting this special device (Activa PC+S) in place of the standard generator (Activa PC) and to compare clinical symptoms, recorded brain signals, and stimulation patterns during a one year period after implantation. Specifically, the investigators will use the Activa PC+S to record GPi (internal globus pallidus) local field potentials between and during programming visits, allowing the surgeon to better characterize a patient's disease. At the same time, the investigators will evaluate the safety of this new device.
The overall aim of this observational study is to investigate the impact of COMT inhibition on homocysteine metabolism, vascular physiology and correlates of neurodegeneration in PD patients with certain COMT genotype. It is designed to evaluate effect size of Hcy lowering to secondary outcome parameters. Assessment of outcome parameters will be rater-blinded or computer-based.
The gait symptoms are usually refractory to the dopaminergic agents and some other resolutions, i.e. repetitive transcranial magnetic stimulation (rTMS) should be searched for in this regard. To study the impact of rTMS, investigators will adopt a domestically developed ambulatory recorder (PK-16CH EXG) for the concomitant recording of the electroencephalographic and electromyographic signals for PD patients when walking in the gait laboratory or when conducting leg dorsiflexion movement on sitting.