View clinical trials related to Parkinson Disease.
Filter by:The main objective of the study is to evaluate the improvement in quality of life after deep brain stimulation surgery with frameless technique by comparing the PDQ-39 scale score at baseline (before surgery) and one year after surgery.
The main objective of the study is to evaluate the efficacy of 10 sessions of transcranial direct current stimulation of the primary motor cortex to reduce levodopa-induced dyskinesia
The goal of this observational study is to learn about the impact of the different types of pain and of the domains involved in the autonomic disorders of inpatients and outpatients diagnosed with Parkinson disease (PD) and multiple system atrophy (MSA) admitted to Istituti Clinici Scientifici Maugeri Centers. The main aims are: Evaluate the prevalence of pain and characterize it in Parkinson's disease and atypical parkinsonisms (MSA) Evaluate the effect of rehabilitation on pain and autonomic symptoms Evaluate the prevalence of autonomic symptoms in Parkinson's disease and atypical parkinsonisms (MSA) Assess the impact of pain and autonomic symptoms on quality of life. Participants will perform neurological examination, rehabilitation program and clinical scales. Researchers will compare the two groups of patients (PD and MSA) and the effect of the rehabilitation on pain, autonomic symptoms and quality of life.
In several neurodegenerative diseases, such as Parkinson's disease, the progressive loss of neurons of monoaminergic systems leads to the development of characteristic clinical manifestations. Therefore, since the discovery that neurodegenerative phenomena are the basis of these Central Nervous System (CNS) diseases, re-innervation strategies have been studied that would allow to stop or at least slow down neurodegenerative phenomena, restoring lost catecholaminergic transmission. Cell therapy in Parkinson's disease aims to treat motor disorders, but should not affect cognitive disorders that result from pathological alterations external to CNS and affecting other transmission systems, such as noradrenergic and cholinergic. These limitations lead to the search for new approaches based on the use of different cell types, but currently these scenarios still seem far away. The theme of cerebral re-innervation in the treatment of neurodegenerative diseases is at the center of numerous translational and clinical research studies, developed according to various approaches and models, which testify to all the complexity and charm of the subject. Among the possible sources for a catecholamine reinnervation in Parkinson's disease, Superior Cervical Ganglion (SCG) could represent a valid autologous source: however, there is no functional evaluation in the literature that expresses the involvement or not of the ganglion in the neurodegenerative process. This clinical study project is the first and essential phase of a larger project aimed at verifying the possibility of autologous catecholamine reinnervation in degenerative diseases of the CNS using the peripheral catecholamine system and in particular the superior cervical ganglion (GCS). The aim of this project is to evaluate whether the peripheral catecholaminergic system, and in particular the SCG, is involved in the process of neurodegeneration. For this purpose, for an "in vivo" functional study, the suitability of the PET-CT 68Ga-PSMA examination will be studied in particular.
This study aim to evaluate the (1) feasibility of a novel mobile application ( Combat PD) that support a home-based gamified aerobic exercise program in individuals with mild Parkinson's disease (PD). The study aims to further explore (2) the effectiveness of Combat PD in improving adherence to prescribed home-based exercise program; and (3) the clinical effectiveness if combat PD in improving motor and non-motor function in PD.
Airway protective disorders, including swallowing (dysphagia) and cough (dystussia) are common in patients with Parkinson's disease (PD). Disturbances in these protective mechanisms increase the risk of aspiration pneumonia. In fact, aspiration pneumonia is the leading cause of death in individuals with PD. Expiratory muscle strength training (EMST) studies have reported significant improvements in the field of airway protective therapies. EMST represents a treatment that can be quantified and translated into functional outcomes that can directly improve functions related to coughing, swallowing, and speech in patients with PD. However, information about detraining outcomes presented in Troche et al. 2014 highlights the need for the development of long-term maintenance programs to sustain training gains following intensive periods of EMST, especially considering the progressive nature of PD. Low long-term adherence to home exercise is an important issue in many patient groups and may compromise treatment outcomes. In patients with PD, this is further compounded by a wide variety of neuropsychiatric symptoms, such as apathy and depression. Therefore, we developed a mobile phone-based visual feedback application (SpiroGym app.) to keep patients motivated to continue EMST following intensive periods of training. The usability of a SpiroGym app was tested in individuals with PD and the findings indicate that EMST coupled with SpiroGym app is feasible and potentially useful in PD patients. Present study aims to verify and extend the encouraging results of this study which showed a potential self-efficacy benefit of the SpiroGym application.
This study will evaluate the safety and feasibility of a home-based, virtually-supervised, combined high intensity endurance and resistance training program in people with Parkinson's disease. It will also evaluate the effects of exercise on cognition and underlying exercise-related biological markers (biomarkers).
Hereditary Parkinson and dystonia syndromes are rare, as are people who carry the predisposition for Parkinson or dystonia but do not have symptoms. It is particularly important to study these people because they are a good model for understanding the development of common non-hereditary Parkinson's and dystonia. To do this, the investigators want to look at how the brain works and how different areas of the brain communicate with each other. The investigators want to identify differences in brain regions connecting perception and action between mutation carriers that develop clinical symptoms and those who stay healthy in different subgroups of inherited Parkinson-dystonia syndromes. Mutation carriers with and without symptoms of three different inherited Parkinson-dystonia syndromes will be investigated at their homes with the help of a mobile examination unit. To detect even subtle signs, which the mutation carriers might not even be aware of, the investigators will use a detailed video-based and -documented movement examination and a non-invasive magnetic stimulation technique that investigates how a sensory, i.e., electrical stimulus can influence the motor response in a hand muscle. Our study will allow the investigators, on the one hand, to define specific markers that protect some mutation carriers from having clinical symptoms and, on the other hand, to identify neurophysiological characteristics that all mutation carriers share whether or not they have clinical symptoms. These are important information for a better understanding of the basis of these disorders and for the development of new treatment strategies, which can also be transferred to genetically-undefined Parkinson's and dystonia syndromes. Through this study, large groups of mutation carriers that have received an in-depth clinical and neurophysiological examination and can be investigated longitudinally in future studies will be build up.
This study aims to test the feasibility and acceptability of home-based motor-motor dual-task training and motor-cognitive dual-task training interventions, and balance-related outcome measures which may be used in an anticipated future randomized control trial intended to determine the superiority of these dual-task training interventions.
Airway protective disorders are a prevalent and progressive consequence of Parkinson's Disease (PD), and often result in aspiration pneumonia which is the leading cause of death in PD. Despite this, a large number of patients with PD do not access specialized services to address these critical deficits. The investigators will examine the comparative effectiveness of a novel treatment paradigm delivered in-person versus via telehealth in persons with PD, as well as the role of patient burden and treatment adherence on outcomes; thus, the proposed research is relevant to public health and in line with NIH's mission to identify novel, efficacious, and accessible rehabilitation strategies for short- and long-term improvement of dysfunctional airway protection in PD.