View clinical trials related to Parkinson Disease.
Filter by:Gait changes appear and become the main cause of disability, loss of independence, falls, fractures and reduced quality of life for patients with Parkinson Disease. Optimal gait management is complex and challenging. Some characteristics, such as gait variability, postural instability, and postural changes, continue to worsen over time despite optimal dopaminergic treatment, suggesting that additional interventions are needed. Given the physiology of gait and postural control in humans, spinal cord stimulation is a potential target for neuromodulatory approaches to gait and postural disorders. Repetitive transspinal magnetic stimulation ( rTSMS) has attracted a lot of attention, due to the possibility of modulating motor and sensory networks in a non-invasive way, activating directly the dorsal ascending pathways and projecting to the thalamic nuclei, cerebral cortex, and brainstem nuclei, thus stimulating descending motor tracts and interrupting aberrant oscillatory activity in corticobasal nuclei circuits. The combination of non-invasive neuromodulation with other therapies can enhance the effectiveness of rehabilitation, increasing plasticity and clinical efficacy, offering a greater and more sustained effect than either therapy alone.It's recommended that patients with PD perform a specific exercise for walking, such as treadmill training (tt), that imposes an external rhythm and concentration of attention on gait, acting as an external cue or marker, promoting a more stable gait, reducing gait variability and decreasing risk of falls. It is proposed, in this study, to develop a new treatment model through the integration of two promising and complementary approaches to improve gait disorders in PD: rTSMS and tt. Thus, the investigators idealized the realization of the first randomized, double-blind, placebo-controlled, parallel, phase III clinical trial that will evaluate the efficacy of tt associated with rTSMS in patients with PD.
In Parkinson's disease (PD) patients undergoing standard-of-care Deep Brain Stimulation (DBS) therapy, to compare the effect on Parkinson's symptoms of two different neurostimulator settings designed to differ from each other as much as possible with respect to how much they activate two different neuroanatomical structures: the axonal pathway from Globus Pallidus (GP) to Pedunculopontine Nucleus (PPN), and the axonal pathway from PPN to GP.
Neurodegenerative diseases are a major health concern due to their growing societal implications and economic costs. The identification of early markers of pathogenic mechanisms is one of the current main challenges. The gut-brain axis has become a primary target because of its transversal role across the neurodegenerative spectrum and its effect on cognition. However, despite recent progress, how changes in the gut-microbiota composition can affect the human brain is still unclear. The goal of this observational study is to characterise the gut-microbiota composition associated with alterations in brain structure and function during the ageing process and across neurodegenerative disorders. This is based on recent studies showing that changes in the human brain and in the microbiota composition, can indicate very sensitively and in a predictive way pathological development and, consequently, be used as markers of neurodegenerative diseases. The main questions it aims to answer are: - How variation in the gut-microbiota composition correlates with the normal brain ageing trajectory? - How dysregulation in the gut-microbiota correlates with pathological changes in brain regions in specific neurodegenerative disorders? - Can the impact of the gut-microbiota on the brain be modulated by blood biomarkers? The investigators will recruit 40 young healthy participants, 40 old healthy participants, 40 participants with prodromal Alzheimer's Disease, 40 participants with Parkinson's Disease and 40 participants with Multiple Sclerosis. Participants will undergo the following examinations: - Magnetic Resonance Imaging - Analysis of a stool sample - Analysis of a blood sample - Neuropsychological assessment - Questionnaires on eating habits
The study aims to investigate cognitive impairment associated with Deep Brain Stimulation (DBS) in Parkinson's Disease patients, with a focus on identifying neurophysiology biomarkers of DBS associated cognitive changes. Using neurophysiology data recorded during DBS surgeries and post-implantation, the research intends to identify biomarkers in order to optimize electrode placement, enhance programming, and ultimately minimize DBS-related cognitive side effects.
Background: Falls are common in elderly individuals and those with neurological conditions like Parkinson's disease. Parkinson's disease causes postural instability and mobility issues that lead to falls and reduced quality of life. The fear of falling (FoF), a natural response to unstable balance, can exacerbate postural control problems. However, evaluating FoF relies primarily on subjective self-reports due to a lack of objective assessment methods. Objectives: This mixed-methods feasibility study aims to develop an objective method for assessing fear of falling during motion and walking using virtual reality. This protocol examines a range of FoF-related responses, including cognitive, neuromuscular, and postural stability factors. Methods: Individuals without and with Parkinson's disease will complete questionnaires, movement tasks, and walking assessments in real and virtual environments where FoF can be elicited using virtual reality (VR) technology. Data from center-of-pressure measurements, electromyography, heart rate monitoring, motion capture, and usability metrics will evaluate the method's acceptability and safety. Semi-structured interviews will gather participants' and researchers' experiences of the protocol. Discussion: This method may allow accurate assessment of how FoF impacts movement by measuring cognitive, neuromuscular, and postural responses during gait and motion. Virtual environments reproduce real-life scenarios that trigger FoF. Rigorously assessing FoF with this approach could demonstrate its ability to quantify the effects of FoF on movement. Conclusions: This protocol aims to improve FoF assessment by evaluating multiple responses during movement in virtual environments. It addresses current measures' limitations. A feasibility study will identify areas for improvement specific to Parkinson's disease. Successful validation could transform how FoF is evaluated and managed.
The aim of this phase Ila trial is to provide evidence on safety, tolerability and symptomatic efficacy of the ROCK-inhibitor Fasudil in patients with early Parkinson's disease (PD). Fasudil has shown neuroprotective and pro-regenerative effects, modulated microglial activity and attenuated alpha-synuclein aggregation in PD models in vitro and in vivo. It has been licensed in Japan since 1995 for the treatment of vasospasms and has a beneficial safety profile arguing for its repurposing. Up to 15 trial centers in Germany will recruit patients. Blinded trial medication will be prepared and shipped by the University Pharmacy Leipzig. Fasudil in two dosages or placebo will be administered orally twice daily to 75 early PD patients for a total of 3 weeks. Safety, tolerability and symptomatic efficacy endpoints will be assessed up to 4 weeks after end of treatment. Its well-known safety profile and the lack of disease-modifying treatments for PD justifies its use in patients with early Parkinson's disease. ROCK-PD is a prerequisite for subsequent long-term clinical trials assessing disease-modification in PD in addition to symptomatic efficacy.
This study is a double-blinded randomized study examining the effectiveness of the dual-site repetitive transcranial magnetic stimulation on Freezing of Gait (FOG) in patients with Parkinson's disease. The investigators hypothesize that treatment using magnetic stimulation on double site (including M1-LL and SMA) will improve FOG and gait symptoms in patients with Parkinson's disease.
This is a multi-center, randomized, double blind, adaptive, parallel-group, placebo controlled Phase 1b study to evaluate the safety, tolerability, pharmacokinetic (PK) and pharmacodynamics of RO7486967 in participants with idiopathic PD at the early stage of the disease (modified H&Y stage ≤2.5) who are either treatment-naïve or on stable treatment with symptomatic therapy (levodopa and/or pramipexole, ropinirole, rotigotine).
INTRODUCTION: Mild cognitive impairment (MCI) is a critical transitional stage in dementia related disorders. Dorsolateral prefrontal cortex (DLPFC), and the lateral parietal (LPC) cortex are subjected to neuropathological changes in MCI. Parietal memory network (PMN) integrity alterations and default mode network (DMN) alterations also occur in MCI. Transcranial direct current stimulation (tDCS) is a promising neuroprotective tool that modulates functional connectivity and might be useful to interfere with cognitive decline in relation to amnestic MCI (aMCI) and Parkinson's disease-MCI (PD-MCI) when applied to DLPFC and LPC. METHODS: This is a multicenter, randomized, and controlled study evaluating the effectiveness of anodal tDCS (atDCS ) applied bilaterally to the DLPFC/F3-F4 and LPC/ P3-P4 for 5 sessions with a total of 10 sessions in 14 days. The stimulation will be delivered with a 2 mA current frequency and will last 20 minutes a day for 5 days a week. The study consists of anodal, and sham control groups with a total of 120 participants with DLPFC and LPC anodal groups including 40 participants each and sham including 40 participants which are all between 45-80 years of age. At baseline and as an outcome measure, neurocognitive evaluation will be conducted using various tests standardized to use in the Turkish population. Functional magnetic resonance (fMRI) will be used to detect possible PMN and DMN alterations and hippocampal connectivity, and electroencephalogram (EEG) will be used to assess possible electrophysiological alterations that may happen as a result of atDCS. Baseline evaluation will be done before atDCS sessions and it will be repeated at the end of 14 days and 90 days. DISCUSSION: This study aims to explore the effectiveness of atDCS in PD-MCI, aMCI and to contribute to the literature in the field.
The purpose of this study is to understand if training Parkinson's disease patients in classical guitar will improve motor function, mood, and quality of life. While medication has been found to be effective for many Parkinson's disease patients, many patients still have symptoms. Previous studies have found that music and rhythm-based activities can help Parkinson's disease symptoms. A previous study looked at the effect of playing classical guitar on Parkinson's disease symptoms. They found positive changes in Parkinson's disease symptoms that lasted for 6 weeks after the study ended. Further, there were positive changes in depression, anxiety, and quality of life.