View clinical trials related to Parkinson Disease.
Filter by:This is a Multi-center, Double-blind, Randomized, Placebo-controlled, Parallel-arm Phase IIa proof of concept in subjects with PD treated with a stable dose of levodopa who are experiencing Motor Complications of Levodopa Therapy
This is a prospective study to demonstrate the safety and efficacy of differentiated neurons-derived from adult CNS progenitors cells transplanted in selected patients with Parkinson's disease.
Gait deficits are among the most characteristic and most functionally debilitating signs of the motor neuropathology of Parkinson's disease (PD). Rhythmic Auditory Stimulation (RAS) is a technique by which a series of auditory stimuli are presented at a fixed rhythm, so that patients have to synchronize their movements to the rhythms. In this study, auditory stimuli will be constituted by Tango musical pieces, which tempo is modified to adapt to patients' walking cadence. Previous results suggested that RAS can increase Tinetti's gait and balance and may also improve Health-Related Quality of Life. This will be a randomized, blind, controlled clinical trial to further assess RAS efficacy and safety.
Introduction: In the recent past, medical training systems using virtual reality (VR) have been introduced to neurorehabilitation to train motor function deficits in patients. The usage of VR-based training systems is based on the evidence of neuroplasticity, which is responsible for recovery of patients suffering from motor dysfunction. Such systems are increasingly used to encourage purposeful limb movements in a VR environment and its efficacy has been found comparable with conventional therapeutic intervention. VR training systems, e.g. the YouGrabber® (YG), will increasingly also be used at home. Therefore, it is essential to integrate valid and reliable assessment tools to monitor the recovery process. Objectives: The aim of the clinical study is to evaluate the usability, feasibility and validity of the digital version of the ActionResearchArmTest (d-ARAT) using the YG system as a platform. Additionally, the feasibility and usability of the implementation of two rehabilitation measures that only recently became integral part of neurorehabilitation, e.g. Action Observation (AO) and Motor Imagery (MI), into the YG training software will be evaluated. Patients & methods: This observational study is designed as a single-arm trial for testing the assessment software including pre- to post rehabilitation comparison of a training involving AO and MI. Therefore, 75 adult patients with Parkinson's disease, MS, Stroke, traumatic brain injury or Guillain-Barré syndrome will be included. 30 out of the 75 patients will take part in the 4-week training on the enhanced VR-based system with a total of 16 training sessions of 45 min each. Primary outcomes will be the score on the System Usability Scale (SUS) and the ARAT as well as the d-ARAT scores. Secondary outcomes will be hand dexterity (Box-and-Block Test), upper limb activities of daily living (CAHAI) and quality of life (EQ-5D-5L). Hypothesis: The study was designed to evaluate the d-ARAT and the training software modules for the YG system. Currently AO and MI specific tasks are being integrated and the ARAT subscales will be implemented on the basis of the redesigned glove equipped with new sensors. The results are expected to give recommendations for necessary modifications. They might also contribute knowledge concerning the application of AO and MI tasks within VR training.
Remote programming has significant advantages over conventional programming methods on some issues. This research will test the safety of SceneRay remote and wireless DBS programming system.
The purpose of this study is to characterize the intestinal flora in subjects with Parkinson's Disease (PD) and to determine safety and trends in improvements in diversity of colonic microbiome following fecal microbiota transplantation.
The overall goal of this research proposal is to develop an adjunct to standard treatments that 'correct' disrupted neural circuitry in Parkinson's Disease (PD) patients. Directly treating these core deficits via targeted behavioral training should slow the progression of PD, assure greater resilience against future decline, and improve the quality of life of many living with PD. The purpose of this exploratory research study is to determine the benefits, if any, of the mobile device-based treatment described above in individuals with PD.
The LipiFlow System (TearScience, Morrisville, NC) is an in-office FDA approved treatment for meibomian gland dysfunction. It relieves meibomian gland obstruction through the use of heat and pulsatile pressure. A recent study has observed that a single treatment with the LipiFlow system can decrease dry eye symptoms and objective findings of meibomian gland dysfunction for 1 year. We aim to see if the Lipiflow System will be beneficial in patients with Parkinsons disease who may have difficulty performing normal meibomian gland dysfunction treatment.
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.