View clinical trials related to Parkinson's Disease.
Filter by:To retrospectively investigate the relationship between the Cholinergic Pathways Hyperintensities Scale (CHIPS) score and the change of cognitive status of Parkinson's disease (PD) patients after bilateral subthalamic nucleus deep brain stimulation (STN DBS).
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.
This study will compare the brain uptake of 18F- DTBZ in 20 patients with PD, 20 patients with MSA, 20 patients with PSP, 20 patients with CBS, and 20 patients with VaP, 20 patients with ET, and 10 patients with DT.
The purpose of this study is to characterize the pharmacokinetics (PK) of LY03003 following multiple escalating intramuscular injections, as compared to Neupro patch and to evaluate the safety and tolerability and preliminary efficacy of multiple ascending dose (MAD) of LY03003 following intramuscular injections.
The appearance of postural instability and gait disorders is a major turning point in the evolution of Parkinson's disease (PD). These axial symptoms are usually unresponsive to L-Dopa and represent a severe impairment for the patients due to frequent falls and reduced outside mobility. There is no effective pharmacological treatment available for these symptoms, and their pathophysiology is not well known : it is currently assumed that non-dopaminergic brainstem lesions participate to axial symptoms in PD. Surgically, these patients cannot benefit from high frequency deep brain stimulation (DBS) of the subthalamic nucleus (STN) since this operation tends to even aggravate axial symptoms unresponsive to L-Dopa in some patients. A dysfunction of the pedunculopontine nucleus (PPN) might be at the origin of these axial symptoms, since the PPN participates in the maintenance of posture and motion in primates. In PD patients, recent reports have suggested that low frequency stimulation of the PPN may equally improve gait and posture. However, these results are debatable due to methodological limitations, insufficient clinical evaluation and uncertain anatomical targeting. Thus, our aim is to propose a low frequency PPN stimulation to six advanced PD patients according to the usual criteria for STN DBS who are, however, unsuitable for this operation due to gait and posture disorders. We will perform a randomized, double-blind and cross over design (two months periods with and without DBS randomly assigned to each patient). The targeting will be allowed by a a three-dimensional and deformable atlas of the basal ganglia fusioned with the stereotaxic magnetic resonance imaging (MRI) of each patient. Evaluations will comprise 1 month before surgery and in "Off" and "On" stimulation condition: - clinical motor assessment in both "Off" and "On" drug state, including cardinal parkinsonian signs, gait and balance - gait initiation physiological evaluation - cognitive and behavioral testing If our hypothesis is confirmed, low frequency PPN stimulation may well represent a substantial improvement of our therapeutic options for advanced PD patients suffering from debilitating gait and posture disorders unresponsive to L-Dopa.
Patients with Parkinson's disease (PD) will be trained using a cognitive behavioral group-training-program to reduce stress and augment quality of life. An unspecific group with the same amount and frequency of meetings is used as a control group. For the evaluation of the training effects, scales to assess quality of life, analyses of psychopathological variations as well as neurocognitive tests will be used. Protocol amendment in 1-2017: addition of FU year 3 and year 5.
The clinical utility of deep brain stimulation (DBS) for the treatment of movement disorders such as Parkinson's disease has been well established; however, there is a great disparity in outcomes among DBS recipients due to varied postoperative management, particularly concerning the choosing of an optimal set of programming parameters from the thousands of possible combinations. This study will evaluate the use of motion sensor based assessments to develop a functional map and algorithms to automatically determine a set of programming parameters that maximize symptomatic benefits while minimizing side effects and battery consumption.
This is a Phase I clinical trial of the FDA approved drug Glycerol Phenylbutyrate to see if phenylbutyrate can increase the removal of alpha-synuclein from the brain into the bloodstream. Alpha-synuclein forms abnormal protein deposits in dopamine neurons and is believed to cause the death of brain cells, leading to Parkinson's Disease.
The primary objective of this protocol is to investigate the monoaminergic (dopamine、serotonin、and norepinephrine ) nervous system and amyloid deposition in Parkinson's disease patients with non-motor symptoms (focus on impulse control disorders and dementia) by novel 18F-DTBZ and Florbetapir F-18 PET imaging. This study will compare the amyloid deposition of brain by florbetapir F-18 PET imaging and monoaminergic function by18F- DTBZ PET in NC group, PD group, PDD group, AD group. Investigators will also analyze monoaminergic function by18F- DTBZ PET in PDI group.
Parkinson's disease is characterized by a large number of non motor, especially neuropsychiatric, signs. Their pathophysiology is complex but the role of dopaminergic and serotoninergic systems dysfunction is suggested by several studies. In addition, the serotoninergic system is involved in the pathophysiology of dyskinesias. Very few studies have analyzed the abnormalities of these two neurotransmission systems at disease onset, in de novo PD patients. Furthermore, the parallel evolution of the degeneration of the dopaminergic and serotoninergic systems with disease progression remains unknown. Thus the present study aims at determining, by using PET and 11C-PE2I and 11C-DASB the respective role of the serotoninergic and dopaminergic systems dysfunction in motor and non motor manifestations in PD, at different evolution stages.