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NCT07414290
A Phase I/II Clinical Study to Evaluate the Tolerability, Safety, and Efficacy of VGN-R08b Intra-cerebroventricular injection in Parkinson's Disease Patients with GBA1 Mutations
NCT07310238
This study aimed to evaluate the effects of repetitive transcranial magnetic stimulation (rTMS) applied to the left dorsolateral prefrontal cortex on cognitive function and dual-task performance in individuals with Parkinson's disease. Participants completed ten rTMS sessions over two weeks or received sham stimulation. Cognitive status was assessed using the Montreal Cognitive Assessment, and mobility was evaluated through single-task and multiple dual-task Timed Up and Go tests. The study examined whether rTMS could enhance cognitive abilities and improve motor-cognitive performance, which are commonly impaired in Parkinson's disease and contribute to reduced functional independence. Findings indicated that rTMS led to improvements in cognition, single-task mobility, and complex dual-task performance. The intervention was well tolerated, and no adverse events related to the stimulation intensity were reported.
NCT07302386
The aim of this study is to examine the benefits that individuals with Parkinson's disease will gain from the rehabilitation program by enabling them to manage their exercise times independently using telerehabilitation method. The main research questions examined in this study are as follows: * Are the improvements in quality of life, walking speed and changes in functionality parameters achieved by individuals with Parkinson's disease through managing their own exercise plans as effective as those achieved through a supervised exercise programme? * Is it effective for Parkinson's patients to manage their own exercise plans in improving their adherence to exercise?
NCT07038590
This document is intended to provide participant with information about a research study in which the participant is invited to participate. This study was approved by the Research Ethics Committee of \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_. If the participant decide to participate, will receive personalized information from the investigator. Please read this document beforehand, and the investigator will ask you any questions you may have to understand the details. If the participant wish, the participant can take this document, review it with others, and take your time to decide whether or not to participate. Participation in this study is completely voluntary and free of charge. The participant can decide not to participate, participate, or change your mind by withdrawing your consent at any time during the project without giving any explanation. The investigators assure the participant that this decision will not affect any future participation with this research group. What is the purpose of the study? To analyze whether the use of a physical exercise program in immersive virtual environments (video games) has greater positive effects on Parkinson's symptoms than traditional rehabilitation programs. Why is the participant being offered to participate? The participant is invited to participate because the participant is a person diagnosed with Parkinson's and because, within the Open Science policies of the University of Vigo, the Galicia Sur Biomedical Foundation, and the Nóvoa Santos Foundation, where bringing research closer to the reality of patients is emphasized, the investigators have selected the specialized Parkinson's center of which the participant is a member to participate in this study. What does the participation consist of? The participation consists of carrying out 2/3 sessions per week on alternate days of physical exercise, and depending on whether the participant belong to the control or experimental group, the participant will do it regularly or recreated with a video game. The duration of each session will be 15 minutes. Be part of one group or another will depend on chance (like throwing a coin in the air and it comes up Heads or Cross). The total duration of the intervention in both cases is 3 months. During the project, 2 evaluations will be carried out: Initial evaluation and final evaluation. In all of them they will be collected information in relation to their pharmacological treatment linked to the pathology, autonomy functional balance, gait and risk of falls, functional balance, symptoms and disease monitoring and quality of life. Furthermore, in the experimental group the usability and security of the tool will be evaluated immersive virtual reality used. All these assessments will be carried out in your proximity center on the agreed day and time to optimize said process and will have an approximate duration of 30 minutes. What discomforts or inconveniences does the participation have? The participation requires travel to your reference center to carry out the study. This program, like any physical activity or exercise, may involve greater tiredness and/or musculo-articular discomfort due to the type of exercise to which you will be subjected. No relevant adverse effects have been recorded in the use of immersive virtual environments (video games).
NCT06602544
Freezing-of-gait (FoG) in Parkinson Disease (PD) is one of the most vivid and disturbing gait phenomena in neurology. Often described by patients as a feeling of "feet getting glued to the floor," FoG is formally defined as a "brief, episodic absence or marked reduction of forward progression of the feet despite the intention to walk." This debilitating gait phenomena is very common in PD, occurring in up to 80% of individuals with severe PD. When FoG arrests walking, serious consequences can occur such as loss of balance, falls, injurious events, consequent fear of falling, and increased hospitalization. Wearable robots are capable of augmenting spatiotemporal gait mechanics and are emerging as viable solutions for locomotor assistance in various neurological populations. For the proposed study, our goal is to understand how low force mechanical assistance from soft robotic apparel can best mitigate gait decline preceding a freezing episode and subsequent onset of FoG by improving spatial (e.g. stride length) and temporal features (e.g. stride time variability) of walking. We hypothesize that the ongoing gait-preserving effects can essentially minimize the accumulation of motor errors that lead to FoG. Importantly, the autonomous assistance provided by the wearable robot circumvents the need for cognitive or attentional resources, thereby minimizing risks for overloading the cognitive systems -- a known trigger for FoG, thus enhancing the repeatability and robustness of FoG-preventing effects.
NCT06921122
Parkinson's Disease affects the brain and causes several movement problems. These problems include stiff muscles, slow movements, shaking when resting, and trouble keeping balance. As the disease gets worse, it can also affect how people speak. Doctors and therapists have found better ways to test how Parkinson's affects speech. There's one special therapy method that's considered the best for helping people with Parkinson's speak better. Now, they're also using a new tool called IOPI (Iowa Oral Performance Instrument) to help test and treat speech problems. This research project wants to see if using IOPI can help people with Parkinson's speak better. Here's how they'll do it: First, they'll split people with Parkinson's into two groups randomly. Everyone will take speech tests, like: Holding an "a" sound as long as they can; Saying "pataka" repeatedly; Counting from 1 to 15; Reading sentences; Speaking freely about a topic; They'll also measure how strong their tongue is using IOPI. Then, one group will get therapy using the IOPI tool, while the other group won't. After the therapy is done, they'll test everyone again to see if the IOPI therapy helped improve their speech. The researchers hope this study will show that IOPI is a helpful new tool for speech therapy, giving therapists more ways to help people with Parkinson's speak better.
NCT06745011
Description of a method to detect Parkinson's disease or Parkinson's-like disease at an early stage (Prodromal Parkinson's Disease) where damage is still confined to the peripheral nervous system damage. Simultaneous collection of biological material to establish a biobank for use as prognostic biomarkers for the development of Parkinson's disease and other neurodegenerative diseases in which pathological alpha-synuclein deposits accumulate.
NCT02485600
This is an open-label, postmarketing, observational study to document health outcomes, in Canadian patients with advanced Parkinson's disease and long-term treatment with Duodopa (levodopa/carbidopa intestinal gel).
NCT04041193
The SIDERA\^B telerehabilitation system is enabled by a multi-domain, multi-device platform providing at home multi-component rehabilitation, targeting cardiovascular (Chronic Heart Failure, CHF), pulmonary (Chronic Obstructive Pulmonary Disease, COPD) and neurodegenerative (Parkinson Disease, PD) chronic diseases. The rehabilitation program embeds engagement activities for patient and caregiver, to empower appropriation of the SIDERA\^B care routines and fuel their well-being resources. The multidisciplinary layering of SIDERA\^B is reflected in the validation protocol including a) clinical and well-being evaluation through a cross-over study confronting usual care with the SIDERA\^B activities; b) technological evaluation: Health Technology Assessment for organizational, legal and equity impacts; c) economic evaluation: process mapping and budget impact analysis to define a sustainable reimbursement process for the innovative telerehabilitation pathway.
NCT03961282
CODY (co-design for you) is a Virtual Reality (VR) tool and Application Programming Interface (API) which uses an immersive, interactive environment for using, experiencing and co-designing home alterations. The aim of this research is to assess the efficacy of using CODY to aid and enhance the ability of adults with Parkinson's disease (PD) to experience and choose appropriate home modifications.