View clinical trials related to Parkinson Disease.
Filter by:The aim of this study is to investigate the efficacy of 50 mg opicapone when administered with the existing treatment of levodopa (L-dopa) plus a dopa decarboxylase inhibitor (DDCI), in Parkinson's disease (PD) patients with end-of-dose motor fluctuations and associated pain
Currently, the Movement Disorders Society (MDS)-UPDRS scale remains the gold standard to document the outcomes in clinical trials for Parkinson's disease (PD). The MDS-UPDRS is far from infallible, as it is based on subjective scoring (using a rather crude ordinal score), while execution of the tests depends on clinical experience. Not surprisingly, the scale is subject to both significant intra- and inter-rater variability that are sufficiently large to mask an underlying true difference between an effective intervention and placebo. Digital biomarkers may be able to overcome the limitations of the MDS-UPDRS, as they continuously collects real-time data, during the patient's day to day activities. In this study the investigators are interested in developing algorithms to track progression of bradykinesia, gait impairment, postural sway, tremor, physical activity, sleep quality, and autonomic dysfunction (the latter being derived from e.g. skin conductance and changes in heart rate variability).
Sleep disorder is one of the most burdensome non-motor symptoms in Parkinsonian patients. Typical manifestations include RBD, decreased sleep efficiency, decreased slow wave sleep, daytime sleepiness, increased sleep latency and wakefulness during sleep. Subthalamic nucleus (STN) deep brain stimulation (DBS) has been reported to improve sleep dysfunction in several studies, mostly due to its improvement in motor dysfunction. However, there are limited research about specific STN-DBS stimulation pattern for sleep architecture regulation, and whether suboptimal parameter combinations for motor has potential benefits for sleep improvement has not been studied. Here we use different parameter combination in STN-DBS, especially by changing stimulation contact and frequency, to explore the specific stimulation pattern for normalizing sleep architecture and increasing slow wave sleep.
The cognitive impairment of Parkinson's disease is non amnestic, which is characterized by working memory impairment and executive dysfunction. The current drug therapy (such as levodopa, dopamine receptor agonists) and surgical treatment (such as deep brain electrical stimulation, thalamic lesion) not only can not effectively alleviate cognitive impairment, but also may aggravate cognitive and speech behavior abnormalities. This project will explore how dopamine regulates temporal working memory in human research by combining drug intervention, neuroimaging and cognitive tasks.
This is a multicenter, prospective, non intervention post marketing surveillance study conducted in Chinese mainland. The main objective was to evaluate the safety characteristics of rotigotine patch in the treatment of Chinese adult patients with idiopathic Parkinson's disease in real world clinical practice.
The brain networks controlling movement are complex, involving multiple areas of the brain. Some neurological disorders, like Parkinson's disease (PD) and essential tremor (ET), cause abnormalities in these brain networks. Deep brain stimulation is a treatment that is used to treat these types of neurological diseases and is thought to help patients by modulating brain networks responsible for movement. Levodopa medication is also used to modulate this brain networks in patients with PD. The overall objective is to develop a unified theory of basal ganglia thalamocortical (BGTC) circuit dynamics that accounts for disease symptomatology, movement, and their inter-relationship. The underlying hypothesis, is that the rigidity and bradykinesia of PD are fundamentally related to excessive functional coupling across nodes in the BGTC motor circuit impeding effective information flow. In this research, the investigator will take advantage of the unique opportunity provided by awake deep brain stimulation surgery to learn more about how the brain functions in a diseased state and how deep brain stimulation changes these networks to make movement more normal. The investigator will simultaneously assess cortical and subcortical electrophysiology in relation to clinical symptoms and behavioral measures and in response to deep brain stimulation, cortical stimulation, and pharmacologic therapy in patients undergoing Deep Brain Stimulation (DBS) implantation surgery.
Deep brain stimulation (DBS) is the most commonly performed surgical treatment for individuals with Parkinson's disease (PD). DBS typically works best to lessen motor symptoms such as stiffness, slowness, and tremor. Despite an overall improvement of these motor symptoms with DBS, past research failed to show an increase in community mobility and have often reported an increase in falling after surgery. The ability to move around on one's own is important for functional independence and improved quality of life. There is growing evidence supporting the positive effects of physiotherapy on individuals with PD. Gait and balance training, in particular, can improve mobility and also prevent falls. So far, no study has shown the effectiveness of rehabilitation in patients receiving DBS. The purpose of this study is to determine if DBS combined with physiotherapy is effective for improving safe independent mobility in individuals with PD, more so than with patients receiving DBS alone.
The main goal of PD research is to develop disease-modifying drugs to delay or prevent the underlying neurodegenerative process. Levodopa, as the gold standard for PD treatment, is associated with the occurrence of motor complications. Many previous studies have confirmed that Stalevo can reduce the side effects of levodopa alone. Moreover, the effects of Stalevo on the treatment of PD patients have been extensively studied, but the efficacy of Stalevo in early PD patients has been less studied. Therefore, it is necessary to further study the treatment of early PD with Stalevo, and observe whether increasing the number of medication can reduce the occurrence of dyskinesis. The research results will help to deepen the understanding of Stalevo in the treatment of early PD and its clinical efficacy.
Parkinson's disease (PD) related gait and balance disorders are challenging to treat because they cannot be optimized with pharmacological intervention alone. This treatment gap is important to address because gait asymmetry and incoordination are associated with increased falls in this population, which can be functionally debilitating and lead to increased morbidity and mortality. Freezing of gait (FOG) has also been associated with reduced quality of life independent of its association with impaired mobility. Gait disorders therefore represent an unmet need in the treatment of PD. A split-belt treadmill (SB-TM) can be used to adjust the speed of each leg separately and individuals can be prompted to 'adapt' to an asymmetric gait and 're-adapt' with return to symmetrical gait in a phenomenon known as 'after-effect'.
A randomized, controlled trial to evaluate the effect of six months digital follow-up, after a stay at a rehabilitation center, on functional and nutritional status in people with Parkinson Disease.