View clinical trials related to Parkinson's Disease.
Filter by:The study is a phase I/II trial designed to establish the safety and efficacy of intravenous administration of autologous bone marrow derived mesenchymal stem cells to patients with Parkinson's disease.
Parkinson's disease is a progressive condition that harms nerve cells of the brain (neurodegeneration). Current treatments for Parkinson's disease (including levodopa and deep brain stimulation) improve certain symptoms but are not thought to improve the underlying neurodegenerative disease process (they are not a "cure"). The cause of Parkinson's disease is unknown. However, some evidence suggests that tiny structures in the investigators cells called "mitochondria" might be involved. Mitochondria are the powerhouses that produce fuel for the investigators cells. Failure of these 'powerhouses' to supply the energy needs of certain nerve cells might lead to Parkinson's disease. Preliminary evidence suggests that a food called 'ketones' might be able to enhance the function of mitochondria and improve Parkinson's disease symptoms and possibly even the neurodegenerative process. In this study, the investigators would like to investigate this possibility by giving patients with Parkinson's disease dietary supplements of 'ketone esters' in a drink. The investigators will then assess if this improves symptoms of Parkinson's disease. The study design is a prospective, double blinded, randomised, controlled trial.
The purpose of this study is to compare the onset time and severity of dyskinesia in amantadine or Dopamine agonist initial treated groups in Parkinson`s disease.
After few years of evolution, patients with Parkinson's disease may develop apathy, with different degrees of severity. Apathy is characterized by a loss of interest for the others and for activities. The lack of social interactions in these patients may be due to an impairment in decoding emotional facial expression. Indeed, facial expression recognition, which is necessary to understand other's emotional state, requires a subclinical facial mimicking of the expression observed. Yet, one of the clinical signs of PD is amimia. This study aims to determinate if there is a facial mimicry disorder in PD ( Parkinson's disease )patients with emotional facial expression (EFE) recognition impairment, compared to healthy control subjects. We also want to know if this facial mimicry disorder is primary (subtended by facial mobility impairment, that is to say amimia) or secondary (related to the mirror neuron systems that allows us to activate similar neural networks when observing and feeling a specific emotion)
Depressive symptoms of Parkinson's disease (PD) patients are major predictors of their prognosis and quality of life. Using subthalamic nucleus (STN) deep brain stimulation (DBS) as an antidepressant could be a promising new direction. Existing methods of adjustment of DBS parameters aim at amelioration of the motor signs and therefore with inactivation of the STN motor territory only. Although the DBS parameter setting is believed to influence the mental state, there is no data that correlates stimulation parameters with mental state. The investigators hypothesize that the emotional territories of the STN have distinct electrophysiological properties and that specific stimulation of these emotional territories can influence the mental state and thus treatment with emotionally-adjusted DBS can improve the psychiatric symptoms of PD. In this project, the investigators intend to map the emotional territories of the STN using neuronal (single units) responses to emotional voices and to identify the emotional spectral signature of the STN single unit activity using spectral analysis and neuronal responses to emotional voices. The investigators also intend to investigate the emotional processing of PD patients by manipulating the stimulation of the subthalamic area. The proposed study will combine neural recording, stimulation and psychological tests to shed new light on emotional processing in the basal ganglia, as well as to provide better treatment for PD emotional disorders,
Background: Parkinson's Disease and the Atypical Parkinsonian Disorder (like Multiple System Atrophy, Progressive Supranuclear Palsy, Corticobasal Degeneration, Lewy Body Dementia) are disease entities with partly common symptomatology. Especially very early in the course of disease, the differentiation between both disease entities can be challenging, even for specialists in the field of movement disorder. However, the establishment of a correct diagnosis is very important for adequate patientcounseling, treatment and the correct inclusion of patients in research trials. Ancillary diagnostic investigations are looked upon to aid in this diagnostic dilemma. Objective: To investigate the value of ancillary diagnostic investigations, more specific MRI, analysis of cerebrospinal fluids and a second opinion in a specialized movement disorder centre, to differentiate Parkinson's disease and the Atypical Parkisonisonian disorder.
The specific aims of this study are to examine whether treatment with transdermal nicotine improves computer-based laboratory and clinical measures of impulsive and compulsive behaviors in Parkinson's Disease subjects who have recently experienced an impulse control disorder.
The most common symptoms associated to senile dementia disease are confusion about schedules, hyperactivity... In this sense, these patients have frequently poor nutrition, resulting in malnutrition problems or malnutrition high risk.
Background: - Researchers are interested in studying individuals who have known or suspected metabolic or genetic diseases that put them at a high risk for heart diseases or diseases of their blood vessels. To improve the results of the study, both affected and nonaffected individuals will be asked to provide blood and other samples and will undergo tests to evaluate heart and lung function. Nonaffected individuals will include relatives of affected individuals and healthy nonrelated volunteers. Objectives: - To study individuals who have or are at risk for cardiovascular diseases, as well as their unaffected relatives and healthy volunteers. Eligibility: - Individuals between 1 and 100 years of age. Participants may be healthy volunteers, individuals with cardiovascular diseases, or unaffected relatives of individuals with cardiovascular diseases. Design: - Participants will have some or all of the following tests, as directed by the study researchers: - Photography of the face and full body - Body measurements - Radiography, including chest or limb x-rays - Metabolic stress testing to study heart and muscle function - Echocardiography to study heart function - Magnetic resonance imaging (MRI) studies, including cardiovascular MRI, angiography, and contrast MRI, to study heart function and performance - Computed tomography (CT) angiogram to obtain images of the heart and lungs - Positron emission tomography (PET) imaging to study possible fat infiltration of the heart - Six-minute walk test to study heart, lung, and muscle function and performance - Vascular ultrasound to study blood vessel walls - Blood, tissue, and other specimens will be collected for research and testing, and will be taken either as part of the clinical study or during surgical procedures. - Follow-up studies may be performed under separate research protocols.
Dysfunction of autonomic nervous system is an important non motor feature of Parkinson' disease (PD). Lewy body formation is widely distributed in hypothalamus and in sympathetic and parasympathetic systems. Animal studies suggest a link between hypothalamus sensing of substrates and glucose metabolism. Thus, hypothalamus lesions could lead to change in glucose metabolism. Recently, we showed that fasting blood glucose level was significantly higher in PD patients than in control group suggesting that glucose tolerance may be impaired in PD. Some studies provided evidence for higher diabetes prevalence in PD patients whereas others showed no difference or a reduced risk of diabetes prevalence in PD patients compared to healthy subjects. So, the risk that a PD patient develops a glucose intolerance or a diabetes is not clearly established and merit to be studied considering the damageable consequences for patient healthy. The aim of this prospective study was to determine the risk that a PD patient develop a glucose intolerance or a diabetes compared to a matched control group, using an oral glucose tolerance test (OGTT).