View clinical trials related to Parkinson's Disease.
Filter by:The primary aim of the proposed project is to characterize dual tasking (DT) deficits to improve motor, cognitive, and quality of life outcomes in individuals with Parkinson's disease (PD). Phase 1 of the intervention will involve an in-depth gait analysis on 15 individuals with PD. This gait analysis will utilize the Computer Assisted Rehabilitation Environment (CAREN) system, a virtual reality system with a fully integrated 3-D motion capture system. The purpose of Phase 1 is to generalize characteristics of gait and postural control during specific DT conditions. Phase 2 (N=20) involves the clinical translation of these findings. This phase will involve creating a clinical intervention based on the objective information gathered the CAREN system. The intervention will take place 3x/week for a total of 8 weeks. Interventional groups will include: 1) DT clinical group (N=10) and 2) Single task group (N=10). Outcome measures will be used at the beginning and end of the intervention to assess the feasibility and efficacy of the intervention.
The purpose of this study is to improve outcomes for persons living with Parkinson's Disease (PD) and their family caregivers. The investigators hypothesize that outpatient interdisciplinary palliative care will improve patient-centered outcomes for PD patients at high-risk for poor outcomes.
Patients with tremor may have varying degrees of tremor at different times. The amplitude and frequency of tremor may change. The investigators observational study is intended to document this tremor.
The study's purpose is to assess the effect of yoga on measures of oxidative stress (i.e. reduction-oxidation [redox] status); motor function; and psychosocial well-being, and the feasibility and acceptability of implementing a Hatha yoga program in PD subjects.
The purpose of the study is to investigate the feasibility of using the commercially available Parkinson's KinetiGraph Data Logger (PKG) to quantitatively assess motor fluctuations in Parkinson's Disease (PD) patients. A reliable and objective assessment of motor fluctuations would support the general neurologists in the referral of PD patients to the Deep Brain Stimulation (DBS) surgical centers and facilitate the DBS eligibility evaluation of PD patients usually done by the DBS specialists at the DBS surgical centers. As part of the routine clinical practice, PD patients are referred to the DBS surgical center (clinical site) to optimize their PD treatment and potentially receive a DBS therapy, and the Principal Investigator (PI), a DBS specialist, assesses their DBS eligibility following published expert evaluation criteria and assigns the patient to one of the following two groups (PI assessment): 1. DBS ready, if the patient presents severe motor fluctuations and/or clear dyskinesia history. 2. DBS not-ready, if the patient presents neither severe motor fluctuations, nor clear dyskinesia history. As part of routine clinical practice, the PKG responsible physician will provide the patient with the PKG to be worn for 6 to 10 days. Based on the Global Kinetics Corporation (GKC) algorithm applied on the data recorded by the PKG, a GKC representative assigned the patients to one of the above mentioned groups: DBS ready or DBS not-ready. The primary objective is to evaluate whether the GKC algorithm can differentiate DBS ready from DBS not-ready patients as assessed during the visit at the clinical site by the DBS specialist. The primary endpoint is therefore the percentage of agreement between the PI assessment and the GKC assessment (DBS ready or DBS not-ready) about the DBS eligibility of the PD patients.
There is a critical need for treatments that address depression and barriers to mental health care in Parkinson's disease (PD). This randomized-controlled trial will evaluate a 10-session telephone-guided cognitive behavioral self-help program (TH-CBT) for depression in PD (dPD). 72 people with dPD (and their caregivers) will receive either TH-CBT plus enhanced usual care (INTERVENTION GROUP) or enhanced usual care only (CONTROL GROUP). Groups will be compared at baseline, midpoint, endpoint, and 1 and 6 months post-treatment. Participants assigned to the control group with have the opportunity to receive the experimental intervention (TH-CBT) after the data collection period (e.g., after the 6-month follow-up evaluation). Given the public health impact of improved depression treatment in PD, the knowledge to be gained may be significant and the project could directly impact clinical practice.
The purpose of this study is to assess the risk of serious cardiac events, specifically ventricular tachyarrhythmia and sudden cardiac death (VT/SCD), associated with the use of domperidone in a population of patients with Parkinson's disease. The hypothesis for this study is that the risk of VT/SCD will be higher among domperidone users, especially at a higher dose. The investigators will conduct a retrospective population-based cohort study using health care databases in eight jurisdictions in Canada and the UK. The study cohort will be defined by the initiation of a new antiparkinsonian drug or a new diagnosis of Parkinson's disease. The results from the separate sites will be combined by meta-analysis to provide an overall assessment of the risk of VT/SCD in users of domperidone.
The ultimate goal of this project is to evaluate a possible new strategy to diagnose earlier Parkinson's disease, using the superior colliculus as a biomarker. Preliminary data from the investigator's group in a rat model of Parkinson's disease suggest that the superior colliculus, a sensory structure, show an early deficit in visual processing. The investigator's data also suggests that with the evolution of the disease, this structure presents a neuronal re-organisation leading which causes a sensory rebound after the introduction of the treatment. The light responses in the superior colliculus were faster, bigger in amplitude and lasted longer (Rolland et al., 2012). Those results raise an important question about the superior colliculus functional state in Parkinson's patients. If this structure have a similar neuroplasticity, the investigators could hypothesize that the superior colliculus may also present a sensory rebound when introducing the treatment. If this hypothesis is true, the accelerated and amplified light responses of this structure may explain the difficulties felt by the patients to inhibit reflexive saccades induced by the appearance of unexpected visual stimuli. Indeed, the superior colliculus is involved in the orientation of the head and eye toward any sudden changes in our environment (Wurtz and Albano, 1980) and the light responses of this structure are strongly correlated with the speed of the saccade (Marino et al., 2012). Therefore, the investigators want to test if a similar deficit could be observed in the superior colliculus of newly diagnosed PD patients. Data will be compared to matching controls.
A Single Period Investigation to Assess the Tolerability of Healthy Subjects to Oral Sinemet® (Levodopa/Carbidopa) Doses Administered Using a Divided Dose Approach
Both Continuous intrajejunal Levodopa Infusion (CLI) and Deep Brain Stimulation (DBS) are accepted therapies for the treatment of advanced Parkinson's disease (PD). To date, no comparative studies have been executed. The INVEST study is an open label randomised controlled trial with cost-effectiveness as primary outcome. The main clinical outcome is quality of life; secondary outcomes are motor symptoms and neurological impairments, among others.