View clinical trials related to Parkinson Disease.
Filter by:The overall goal of this protocol is to evaluate [18F]MNI-1216 (also known as [18F]ACI-12589) as an α-synuclein targeted radiopharmaceutical in 3 parts as follows: - Part 1: first in human (FiH) imaging - Optional Part 2: expansion of FiH imaging - Optional Part 3: retest imaging A total of up to 30 participants may be enrolled and participate in the study. Part 1 of the study will include up to 10 participants (target of up to 5 healthy volunteers and up to 5 participants with idiopathic Parkinson's Disease). There will be an ongoing review of study data in Part 1 to evaluate the characteristics of tracer binding and safety. If the study results are deemed adequate in Part 1, Part 2 and/or Part 3 may be initiated. The decision to initiate Part 3 may also include a review of data from Part 2, if Part 2 is performed and the data are available. If performed, Part 2 will include up to 20 participants, including health volunteers and participants with α-synucleinopathies to acquire additional tracer-related data. If performed, Part 3 will include up to 10 participants from in Part 1 and/or Part 2 (including health volunteers and participants with α-synucleinopathies) to evaluate the reliability of [18F]MNI-1216 ([18F]ACI-12589) Positron Emission Tomography (PET) imaging.
dBM-dev study is a multicentre low-intervention research study which concerns REM sleep behaviour disorder (RBD) who is the best predictor for neurodegenerative diseases including Parkinson's disease (PD). RBD can only be confirmed by polysomnography, which is a cumbersome procedure. The main objective of this study is to identify a novel, robust dBM for the detection of RBD using smartwatch-based recordings of passive data.The study is conducted step-wise on two subsequent cohorts referred to as the development cohort and the confirmation cohort.
Quasi-experimental, controlled, non-randomised two-arm pilot, with an experimental group (table tennis exercise) and an active control group (cognitive training based on board games).
The proposed multi-site, Genetics and Aerobic Exercise to Slow PD (GEARS) Trial will, for the first time, determine the interplay between genetics and exercise in altering PD progression. In sum, 200 PD patients will be recruited from the Cleveland and Salt Lake City metro areas to participate in the Pedaling for Parkinson's (PFP) community-based exercise program. Participants will exercise at community-based sites 3x/week for 12 months. All participants will undergo genotyping using an array that includes the genome backbone and common risk variants associated to increase risk for multiple neurological disorders including PD.
The aim of the PI-PEG study is to explore the taste functions of the following 3 groups of participants: - healthy volunteers - patients with early Parkinson's disease - patients with incipient Lewy body disease. To this end, the results obtained from taste evoked potentials in each of the 3 groups of participants will be compared with each other and with different nutritional, motor and cognitive data. This study could reveal a difference in cortical processing of gustatory sensory information between patients who have had idiopathic Parkinson's disease progressing for 3 years or less, and patients who have had Lewy body disease progressing for 3 years or less. Indeed, a modification of taste evoked potentials (in terms of latencies) proportional to the degree of cerebral degeneration could be observed.
Expression of hypokinetic and hyperkinetic motor symptoms in Parkinson's disease (PD) is associated with pathological synchronous oscillations of neuronal activity (local field potential/LFP) in the cortico-subcortical network with a wide frequency range. In the present project, we propose to study cortico-subcortical oscillations and their synchronization in patients operated for PD (subthalamic deep brain stimulation (STN-DBS)) during distinct pharmacological and stimulation conditions (hypokinetic and hyperkinetic), using a simple motor task.
The success of Deep Brain Stimulation (DBS) is more correlated to fulfillment of patients' expectations, than merely improvement of motor status1. Therefore, it is of utmost importance to inform the DBS candidates as good as possible to set realistic expectations. Currently, the patient - most of the time accompanied by a family member - is informed about the surgery and its benefits and risks during the outpatient consultation of the neurologist, and later on during the consultation of the neurosurgeon. Written information is provided in the form of a booklet that the patients take home. Due to the large amount of information, not all of it can be captured by the patient. Therefore, we would like to investigate whether an additional online immersive educational session on DBS would better educate the patient. The online session is a 1-hour video call with a small group of DBS candidates and their caregivers, lead by DBS experts, where testimonials of other patients are shown, together with multiple infographics. Two weeks later their will be a second online session summarizing the information and providing the opportunity for Q&A.
Levodopa-Carbidopa intestinal gel (LCIG) is an effective therapy for complicated Parkinson's disease (PD). Few studies have explored the efficacy and safety of the potential combination of LCIG with catechol-O-methyltransferase (COMT) inhibitors, particularly Opicapone (OPC).
This study is double-blinded placebo controlled to estimate the short-term efficacy of Talineuren. The investigational Medicinal Product (IMP) is administrated 18 times intravenously as an add-on therapy to the standard of care Parkinson medication. Talineuren is a liposomal formulation containing GM1 (monosialotetrahexosylganglioside) as the pharmacological active substance. The results of this pilot study are essential for the sample size calculation of a subsequent larger phase II/III trial.
The CUE1 device is a non-invasive wearable device for people with Parkinson's Disease (PD) approved for sale in the UK. The CUE1 device utilises two established methods to improve motor symptoms in PD, namely pulsed cueing and vibrotactile stimulation. Many people with PD wish to explore non-pharmacological interventions as an adjunct to manage their motor symptom. Study design and eligibility: This feasibility study is to establish whether the CUE1 device is a useable and acceptable device for older people with PD. 20-25 participants aged >60 years with PD will be recruited from a movement disorder service to the study. Methodology: Participants will undertake baseline assessments of motor symptoms and quality of life with a PD nurse assessor in their own home. Following this the CUE1 device will be fitted and repeat assessments of motor symptoms will take place after 20 minutes. The participants will complete a daily diary of useability and acceptability for 4 weeks. A second visit will occur at 4 weeks with the same PD nurse assessor where the final set of motor symptom and quality of life assessments will be completed.