View clinical trials related to Parkinson Disease.
Filter by:Adults with Parkinson's Disease experience an array of challenges and changes in daily living, behaviors, and functioning throughout the progression of their condition. The investigators want to learn more about the effects of Parkinson's Disease on individuals' social behavior and quality of life (QoL) compared to people of the same age without Parkinson's Disease.
Given the expansion of indications for genetic testing and our understanding of conditions for which the results change medical management, it is imperative to consider novel ways to deliver care beyond the traditional genetic counseling visit, which are both amenable to large-scale implementation and sustainable. The investigators propose an entirely new approach for the implementation of genomic medicine, supported by the leadership of Penn Medicine, investigating the use of non-geneticist clinician and patient nudges in the delivery of genomic medicine through a pragmatic randomized clinical trial, addressing NHGRI priorities. Our application is highly conceptually and technically innovative, building upon expertise and infrastructure already in place. Innovative qualities of our proposal include: 1) Cutting edge EHR infrastructure already built to support genomic medicine (e.g., partnering with multiple commercial genetic testing laboratories for direct test ordering and results reporting in the EHR); 2) Automated EHR-based direct ordering or referring by specialist clinicians (i.e., use of replicable modules that enable specialist clinicians to order genetic testing through Epic Smartsets, including all needed components, such as populated gene lists, smartphrases, genetic testing, informational websites and acknowledgement e-forms for patient signature); 3) EHR algorithms for accurate patient identification (i.e., electronic phenotype algorithms to identify eligible patients, none of which currently have phenotype algorithms present in PheKB; 4) Behavioral economics-informed implementation science methods: This trial will be the first to evaluate implementation strategies informed by behavioral economics, directed at clinicians and/or patients, for increasing the use of genetic testing; further it will be the first study in this area to test two forms of defaults as a potential local adaptation to facilitate implementation (ordering vs. referring); and 5) Dissemination: In addition to standard dissemination modalities,PheKB95, GitHub and Epic Community Library, the investigators propose to disseminate via AnVIL (NHGRI's Genomic Data Science Analysis, Visualization, and Informatics Lab-Space). Our results will represent an entirely new paradigm for the provision of genomic medicine for patients in whom the results of genetic testing change medical management.
A project aims at addressing gait impairments and non-motor symptoms such as anxiety and stress in Parkinson's disease (PD) patients through a novel approach involving heart rate variability (HRV) feedback and Augmented Reality (AR) training. The project is based on the premise that improving HRV, which reflects the adaptability of the autonomic nervous system, can enhance both motor functions like gait and non-motor symptoms.
Our research focused on understanding the interplay between brain excitability and balance function in patients with Parkinson's disease (PD), alongside evaluating effective physical therapy methods. It highlights the prevalence of non-motor disorders and cognitive impairments among PD patients, including balance and postural issues, cognitive function decline, and gait instability. Additionally, it notes that PD patients exhibit abnormal electrophysiological responses, indicating altered central excitability.
To evaluate the efficacy and safety of tenofovir disoproxil fumarate in the treatment of Parkinson's disease. The changes of motor symptoms and the occurrence of adverse reactions in early Parkinson's disease patients who took tenofovir disoproxil fumarate and did not take Tenofovir disoproxil fumarate at different time points were compared.
This is an exploratory study to assess the impact of whole body vibration on backward walking speed in people with Parkinson disease.
The objective of this study was to determine the effects of protocols of repetitive transcranial magnetic stimulation (rTMS) therapy based on the functional reserve of each patient with Parkinson's disease, compared to conventional high-frequency rTMS therapy on bilateral primary motor cortex (M1). Investigators hypothesized that the functional reserve of each patient with Parkinson's disease will be different, and therefore an appropriate simulating target for rTMS therapy is needed. In addition, this approach could be more effective compared to conventional protocols applied to patient with Parkinson's disease regardless of their severity, predicted mechanism of motor function recovery, or functional reserves.
The aim of this study was to investigate the level of physical activity and its determinants in children with WPW.
Rare and very rare neurological diseases primarily or exclusively affect the nervous system with a prevalence of < 5 out of 10'000 and 100'000 people, respectively. Besides these, there are undiagnosed neurological diseases: neurological conditions without a diagnosis after completing a full diagnostic examination. Rare, very rare, and undiagnosed neurological diseases are complicated and progressive and often cause variegated motor signs, impairments, and syndromes. Balance and gait are frequently affected in these conditions, already at the clinical examination. These balance and gait impairments limit activities and cause an increased risk of falling. Falls can eventually result in injuries, even severe. There are only a few studies about these diseases, likely because of their rarity. Hence, the clinical presentation and the course of rare and very rare diseases are poorly known or even unknown. Essential information for these conditions' diagnosis, prognosis, treatment and rehabilitation is missing. MaNeNeND is an observational study underway at the Fondazione IRCCS Istituto Neurologico "Carlo Besta" (Milano) aimed at detailing the clinical and biological features of very rare and undiagnosed neurological diseases. Research questions: 1. Do patients with rare (Ra), very rare (V) and undiagnosed (U) neurological diseases suffer a balance and gait impairment? 2. Is there a correlation between the clinical and instrumental severity of the balance and gait impairment in RaVU neurological diseases? 3. Are instrumental measures more sensitive in detecting balance and gait impairments in patients affected by a RaVU neurological disease than the clinical measures? 4. Do the balance and gait impairments in RaVU neurological diseases worsen in time? The current project aims at diagnosing, quantifying and detailing the balance and gait impairment in rare, very rare and undiagnosed neurological diseases. To this aim, questionnaires, clinical scales and instrumental tests will be administered to these patients to collect a wide range of balance and gait measures. These measures will also integrate those collected with MaNeNeND to provide a more detailed description of patients with rare, very rare and diagnosed neurological diseases. Participants will complete two questionnaires: the Dizziness Handicap Inventory - short form (DHI-sf, an ordinal score of self-perceived balance) and the Modified Fatigue Impact Scale (MFIS, an ordinal score of self-perceived fatigue). Moreover, a clinician will administer the Mini Balance Evaluation Systems Test (Mini-BESTest, an ordinal score of balance), the 10 m walking test (for measuring the gait speed and other gait parameters) and the Timed Up and Go test (an instrumental measure of mobility and balance). Walking and the Timed Up and Go tests will be recorded with a trunk-worn inertial measurement unit. Finally, participants will be asked to complete an instrumental upright stance and gait assessment, the first consisting of standing on posturographic plates and the second of walking on a treadmill equipped with force sensors. When walking on the treadmill, an optoelectronic system will also record the position in time of limbs and trunk. The quantification of the severity of the balance and gait impairment of the patients suffering a rare, very rare or undiagnosed neurological disease will highlight these persons' therapeutic and rehabilitative needs. Comparing the balance and gait impairment of rare, very rare and undiagnosed diseases with those of multiple sclerosis, Parkinson's disease and peripheral neuropathy will highlight if the formers' balance and gait impairment has unique characteristics that could help ease the diagnosis of these uncommon conditions. The longitudinal measurements on rare, very rare and undiagnosed diseases will be paramount to identifying prognostic factors. In addition, the data collected in the current study will be crucial for future studies, for example, for estimating the sample size in clinical trials.
Primary Objective To investigate if patients hospitalised for older adults with a decreased level of physical function, either related to a chronic condition e.g., COPD, Congestive heart failure, renal failure; infections; frailty and tendency of falling; orthopaedic surgery - after hip fracture will increase their time spent out of bed during hospitalisation and 3 months after discharge through visual feedback and motivational intervention about physical activities from a new mobile technology. Hypothesis Patients hospitalised for medical disease will increase their physical activity level during hospitalisation and 3 months after discharge through visual feedback and motivational intervention from a new mobile technology.