Active clinical trials for "Parkinson Disease"

a data driven approach has identified different cognitive phenotypes in Parkinson's disease (PD) this heterogeneity possibly reflects the diversity of the neuronal damage caused by the disease we hypothesize that the different clinical presentations are associated to specific anatomical and functional correlates

AIM: To validate the tracer [11C]donepezil for use in the parasympathetic nervous system. MATERIALS AND METHODS: The Investigators will include 7 healthy males aged 45-75 in our study. The participants will receive a careful medical examination, including a neurological examination, as part of the inclusion process. The subjects also have an MRI scan of the brain. PET/CT scans with [11C]donepezil are conducted. Six subjects will receive two PET/CT scans - once for the upper abdominal region and once for the head region two evaluate dynamic binding characteristics of the tracer in internal organ. Additionally, one single subject will receive 5 consecutive whole body PET scans to estimate radioactive dosimetry of this tracer. PERSPECTIVES: The study will potentially result in the development of a PET ligand for imaging the parasympathetic nervous system. This will have applications for research in Parkinson's disease, diabetes, heart disease and other disorders, in which the autonomic nervous system is involved

To evaluate DBS device settings and match with the features of the DBS care management software.

Deep Brain Stimulation (DBS) is an FDA approved, and widely used method for treating the motor symptoms of Parkinson's Disease (PD), Essential Tremor (ET) and Dystonia. Over 100,000 patients worldwide have now been implanted with DBS devices. The DBS target regions in the brain are the Subthalamic nucleus (STN), the Internal Segment of Globus Pallidus (GPi), or the Ventral Intermediate Nucleus of the Thalamus (VIM). In order to place the DBS electrode in the target location, a combination of two 3D imaging techniques; 3D MRI and CT, are used. Data are also collected from individual nerve cells to help find the best location for the DBS electrode in each patient. This electrode recording takes place during the standard surgical implantation of the DBS electrode, and is part of the standard clinical technique. The investigators plan to collect additional data from populations of neurons during the DBS surgery in an effort to further improve the placement of the DBS electrode. These "Local Field Potentials", LFPs, represent the activity of the collection of neurons surrounding the tip of the electrode, and will be measured during surgery along the path used for the placement of the DBS electrode. The goal of this project is to determine whether this additional data from surrounding neurons will help with optimal placement of the DBS electrode.

The purpose of the study is to test whether body-worn wireless motion sensors can measure dyskinesias (involuntary movements caused by medications) in individuals with Parkinson disease (PD) independent of voluntary activity being performed and other PD motor symptoms (e.g. tremor).

HaGuide version 1.0 (Neuro-Omega Ltd.) is a software module add-on to the FDA cleared Neuro-Omega System (K123796). It was designed to facilitate the use of Neuro-Omega's system by automatically mapping visually the depth of STN landmarks intra-operatively. HaGuide algorithm computes and displays the STN entry and exit, as well as introduces a detection of a distinct DLOR-VMNR boundary. HaGuide visual display is added to the UI and it is supplementing and not replacing the previously cleared standard display (visual and audio) of the system.

Action slowing has been demonstrated in many diseases. Parkinson's disease (PD) and Huntington's disease (HD) are two neurodegenerative diseases affecting the basal ganglia, particularly the medial globus pallidus, and the clinical expression of these two diseases is characterized by a combination of motor and cognitive disorders, but with two opposing patterns of dysfunction. Action slowing has been demonstrated in both of these diseases and has been extensively studied in Parkinson's disease, suggesting a perceptive-cognitive origin. Far fewer studies have been conducted in Huntington's disease. However, all of these studies were performed with different methodologies in small cohorts and the value of the proposed study is to use a validated and standardized computerized mental chronometry paradigm, providing a better understanding of the mechanisms of action slowing in these two diseases and to more clearly define a disease-specific profile.

Impulse control disorders (ICD) are frequent in Parkinson's Disease. Neurobiological substrates of these symptoms are largely unknown. The investigators aim to explore mesocorticolimbic pathway in Parkinson's disease patients with impulse control disorders (ICD) using an MRI technique called tensor diffusion imaging (DTI). More precisely, the main purpose is to demonstrate that fractional anisotropy (FA) (data obtained with DTI) in the ventral tegmental area (VTA) is different between patients with ICD and patients without ICD. Secondary objectives are to demonstrate a difference in volume of VTA, in FA in others structures included in reward system (prefrontal cortex, nucleus accumbens, amygdala), and in number of fibers between VTA and the other structures of reward system between this two groups. Other objective is to measure and compare these same variables between Parkinson's patients and healthy controls. We hypothesized that a denervation of mesocorticolimbic pathway predisposes Parkinson's patients to ICD.

The way the immune system responds to certain PD-related proteins in PD donors compared to the way it responds in persons without or fewer PD related proteins is not well studied and this study aims to analyze the autoimmune response in each group. The study involves a one time visit involving brief questionnaires and a blood draw of 30 mL (approximately 2 tablespoons) to be collected.

The objective of this study is to validate a diagnostic tool severity of these common non-motor manifestations, disturbing and little recognized as a self-questionnaire. This assessment tool used on different subgroups of patients (free from any treatment at an early stage of the disease and the stage of motor complications) will better understand the natural history of the non-motor fluctuations (FNM)