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Showing 1-20 of 853 trials
NCT07187843
This observational study aims to systematically characterize a cohort of patients with early-stage Parkinson's disease (PD) attending the Movement Disorders Center of AUSL-IRCCS Reggio Emilia, Italy. PD is the second most common neurodegenerative disorder, affecting about 1% of individuals over 60 years of age. The project will explore clinical and biological differences between the recently proposed "Brain-First" and "Body-First" phenotypes of PD. Patients will undergo detailed clinical evaluation, neuroimaging, and biomarker assessments (including neurodegeneration and neuroinflammation markers). Particular attention will be given to the progression of axial and cognitive symptoms, which represent major contributors to disability. Findings from this study are expected to improve early patient stratification, clarify disease mechanisms, and support the development of precision medicine strategies and future disease-modifying therapies.
NCT07545473
Hyperspectral retinal imaging is a non-invasive imaging modality in which a series of images of the retina are captured using light of different wavelengths. The resulting "hypercube" of data provides a wealth of information about the retinal structure. Our group has developed evidence supporting a role for this technology in the detection of retinal amyloid beta in Alzheimer's disease. We are undertaking further studies to establish the role of this method in the assessment of people with dementia, or those at risk of Alzheimer's disease. In addition, we wish to test whether the approach may have value in other forms of dementia or neurodegenerative disease such as Parkinson's disease, Lewy-Body dementia or vascular dementia.
NCT07543861
This research is studying the use of a new type of standing desk in a small number of people to learn about the user experience for people with Parkinson's disease. 12 4-hour sessions will be performed to test the primary hypothesis that dynamic standing improves gait function compared to static standing and control sitting. This study has 2 phases. Phase 1 will be an open-label study and Phase 2 will be an in-lab randomized controlled trial pilot study. This is phase 1 of the study.
NCT05637593
The goal of this clinical trial is to examine effects of training involving rhythmic auditory stimulation (RAS) on upper-limb movements and functions in patients with Parkinson's disease (PD). This study employed a 21-day randomized controlled trial design to evaluate the efficacy of upper-limb training involving RAS on upper-limb function and neural activity in PD patients. The RAS group showed sustained improvements at one-month follow-up.
NCT06104397
The goal of this clinical trial is to learn about exercise and physical activity people with Parkinson's Disease. The main questions it aims to answer are: 1) learn about the physical activity and exercise behaviors of people with Parkinson's Disease over the course of a year and 2) compare 3 exercise guidance strategies aimed to impact exercise behavior: standard care, written exercise guidance from neurologist and/or physical therapy. During the course of the study: 1. Participants will use activity trackers and a mobile phone application to monitor their exercise participation. 2. At the same time, the research team will be working with the participant's medical teams at Northwestern Medicine and University of Chicago Medical Center to improve the way that they deliver exercise guidance using verbal instructions and encouragement, written exercise guidance, and/or physical therapy.
NCT05748028
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.
NCT07536490
The goal of this observational study is to investigate the relationship between sleep quality, cognitive functions, and disease severity in individuals with Parkinson's disease. The main question it aims to answer is: Is sleep quality associated with cognitive function and disease severity in individuals with Parkinson's disease? Participants will complete assessments of sleep quality, cognitive function, disease severity, and disease stage during a single evaluation session. Cognitive function will be evaluated using the Stroop Test, Clock Drawing Test, and Montreal Cognitive Assessment. Disease severity will be assessed using the Unified Parkinson's Disease Rating Scale, and disease stage will be determined using the Modified Hoehn and Yahr Scale.
NCT06556173
This is a study to understand if taking VTX3232 is safe in participants diagnosed with early stage idiopathic Parkinson's Disease (PD). Approximately 10 patients will take VTX3232 Dose A. The study consists of a 30-day Screening Period (to see if a participant qualifies for the study), a 7-day Pre-Baseline Period, a 28-day Open Label Treatment period (a participant receives active Dose A), and a 14-day Follow-Up Period.
NCT07521384
This prospective observational study collects real world data on participants receiving regenerative therapies administered internationally and delivered intranasally via the Kurve Therapeutics ViaNase device. The study does not assign treatment. Participants are enrolled after receiving, or electing to receive, therapy as part of routine clinical care outside the study. Participants are observed in one of three cohorts based on the therapy received: MuSE cell derived exosomes, MuSE stem cells, or combination therapy. The objective is to evaluate safety, tolerability, and changes in inflammatory biomarkers and clinical outcomes over time in a real world setting. The study also evaluates changes in inflammatory biomarkers, including serum tumor necrosis factor alpha (TNF-α), to better understand the biological effects of these therapies.
NCT04768101
Recent immunological and physiological studies have provided evidence in support of a central nervous system (CNS) lymphatic drainage system in vertebrate animals, and preliminary evidence has suggested that a similar system exists in humans. If operative, this system may have central relevance to many vascular and fluid clearance disorders such as stroke, multiple sclerosis, Parkinson's disease, and Alzheimer's disease related dementia (ADRD): diseases which represent some of the most pressing healthcare challenges of the 21st century. Evaluating this possibility will require improved, robust imaging methods sensitive to lymphatic drainage dysfunction; as such, the goal of this work is to apply novel magnetic resonance imaging approaches, optimized already for evaluating lymphatic circulation in patients with peripheral lymphatic dysfunction, to quantify relationships between physiological hallmarks of ADRD and CNS lymphatic function in humans.
NCT07356414
The goal of this clinical trial is to learn if a proactive swallow exercise will help to improve swallow fitness in patients with Parkinson's disease. The aim of the study is to assess how effective this exercise is and to measure the change in swallowing fitness from the beginning to the end of the study. Patients who are given the exercise training will be compared to participants who are treated using the usual standard treatment. Patients will have 6 weeks of twice-weekly SwallowFIT training. Each session will be an hour long.
NCT07495462
Parkinson's Disease (PD) is a progressive brain disorder that affects movement and balance. It can cause slowed movements, stiffness, tremor, balance problems, and an increased risk of falling. Many individuals with PD develop fear of movement, also referred to as kinesiophobia, and fear of falling. This condition may lead to avoidance of physical activity, which can further worsen balance and movement abilities. This study aims to determine whether adding Motor Imagery (MI) to a standard rehabilitation program can improve balance and reduce fear of movement in individuals with PD. MI is a mental practice technique in which an individual rehearses movements cognitively without actual physical execution. For example, a person may imagine standing up, walking, or climbing stairs. Although the movement is not physically performed, the brain regions involved in movement are activated. MI is safe, does not require special equipment, and may help improve motor control. Eligible participants will be randomly assigned to one of two groups. One group will receive standard physical therapy and rehabilitation exercises, while the other group will receive the same therapy combined with additional MI training. The rehabilitation program will last six weeks. The study will primarily evaluate whether this combined approach improves balance and reduces fear of movement. In addition, the potential effects of the intervention on fall risk, functional mobility and performance, fear of falling, activities of daily living, and motor function will also be examined. Assessments will be performed at the beginning of the study, at the end of treatment, and again at 12 weeks. Researchers hope to determine whether combining MI with conventional rehabilitation provides greater benefits than conventional rehabilitation alone and may help improve rehabilitation strategies for people living with PD.
NCT04876339
Music therapy is widely used in relational and rehabilitation settings. In addition to Neurologic Music Therapy and other music-based techniques, "sonification" approaches were recently introduced in the field of rehabilitation. The "sonification" can be defined as a properly selected set of sonorous-music stimuli are associated with patient movements mapping. In fact, the auditory-motor feedback can replace damaged proprioceptive circuits with a consequent improvement of the rehabilitation process. Interventions with "sonification" facilitate sensorimotor learning, proprioception and movements planning and execution improving global motor parameters. This study proposes the use of musical auditory cues which includes the melodic-harmonic component of the music. This kind of sonification makes the feedback pleasant and predictable as well as potentially effective. The investigators propose to apply and assess the effectiveness of this kind of sonification on gait training and other secondary outcomes in stroke, Parkinson's disease and multiple sclerosis population. Also, the investigators will assess the impact of "sonification" on the level of fatigue perceived during the rehabilitation process and on the quality of life. The study is a multicenter randomized controlled trial and will involve 120 patients that will undergo standard motor rehabilitation or the same rehabilitation but with the sonification support. The interventions will be evaluated at the baseline, after 10 sessions, after 20 sessions and at follow-up (one month after the end of the treatment). The assessment will include functional, motor, fatigue and quality of life evaluations. The collected data will be statistically processed.
NCT07505394
Impulse control disorders and related behaviors (ICDRBs) are characterized by pathological gambling, compulsive shopping or eating, and hypersexuality, but other related behaviors have been described, e.g. hobbyism, and punding. ICDRBs are frequent in Parkinson's Disease (PD), affecting up to 50% of the patients after 5 years with major medical, social, and legal impact, with life changing consequences for patients and caregivers. The main risk factor is dopaminergic therapy, particularly the cumulative dose of dopamine agonists (DA). On the other hand, the dopaminergic therapy is necessary to control motor symptoms, and DA have demonstrated efficacy in delaying motor complications occurring in PD. Ideally, dopaminergic therapy would have to be adjusted to the individual risk of developing ICRDBs to maximize the benefit/risk ratio of each drug. However, despite several clinical risk factors associated with the risk of ICDRBs (in addition to the dopaminergic therapy), it is still not possible to predict their risk at the individual level, and not every patient treated with dopaminergic medications will develop ICDRBs. A machine learning algorithm to predict ICDRBs, based on clinical data, validated by cross-validation on independent replication cohorts has been developed. The PREVENT-ICD study proposes to test the efficacy of a new application, ICD-Shield, based on an algorithm to predict and prevent ICDs,in a multicenter randomized controlled trial to prevent ICDRBs in PD patients by proposing to the clinician treatment adjustment according to the risk predicted by the algorithm, as compared to the standard of care (SoC)
NCT04650932
Deep brain stimulation (DBS) in the dorsal region of the subthalamic nucleus (STN) is very effective for reducing motor symptoms of Parkinson's disease (PD). Modeling studies suggest that this therapy may result in current spread into the ventral STN, causing altered cognitive processes. As a result, current stimulation parameters often lead to worsening in verbal fluency, executive function, and, particularly, cognitive control. There is evidence suggesting that low frequency oscillatory activity occurs across brain circuits important in integrating information for cognition. Preclinical studies and human recording studies indicate these low frequency theta oscillations drive cognitive control during cognitive tasks. Thus, the purpose of this study is to determine the safety, tolerability, and efficacy of low frequency stimulation (LFS) of the ventral STN alongside standard high frequency stimulation (HFS) of the dorsal STN in patients with PD.
NCT07502066
The goal of this one blind-randomized controlled clinical trial is to evaluate the clinical effectiveness of a telerehabilitation (TR) protocol focusing on balance rehabilitation in patients with neurodegenerative diseases (Parkinson's Disease, Multiple Sclerosis). The secondary objectives of the study are: 1. To evaluate the effects of clinical treatment on Health-Related Quality of Life (HRQOL) outcomes. 2. To collect data on process measures: user needs (patients and caregivers), treatment adherence, usability, satisfaction, technological acceptance. Participants will perform 20 rehabilitation session (physiotherapy) for balance improvement. Experimental group patients will be trheated through tele-rehabilitation performing exercise with an hospital physiotherapist. Researchers will compare telerehabilitation group to usual care group to see if there is a significant improvement in motor function, particularly in balance and mobility tests, as well as an improvement in quality of life.
NCT03454425
The objective of this study is to test the efficacy and safety of unilateral subthalamotomy performed using the ExAblate System for the treatment of Parkinson's disease (PD) motor features.
NCT07488351
The aim of this study is to evaluate the associations of self-compassion and self-efficacy levels with symptom severity, functional status, and quality of life in individuals with Parkinson's disease.
NCT07485218
With our study, the investigators aim to assess the impact of the fatigue experienced during daily life activities (tiredness) and whether there is a relationship with muscle fatigue during an exercise task. The results of this study may be used to improve the assessment of fatigue in older adults and enhance clinical management. 1. General information An increase in fatigue is considered one of the main causes of reduced quality of life in older adults and in people suffering from chronic diseases. However, the investigators still know little about the mechanisms underlying fatigue in older adults, mainly because most of the available tools were developed to assess this symptom in younger populations with specific diseases, without proper adjustments for physical activity or age. In 2015, the Pittsburgh Fatigability Scale (PFS) was developed as a self-administered questionnaire to assess both physical and mental fatigue in older adults. The PFS consists of 10 questions describing activities of varying duration and intensity. The other scale the investigators will ask participants to complete is called the Fatigue Severity Scale (FSS): a 9-item questionnaire that evaluates fatigue intensity in various situations over the past week. Participants' fatigue will also be assessed during two motor tasks simulating daily activities: a handgrip test and a seated leg exercise mimicking walking. If participants decide to take part in our research project, participants will complete the PFS and FSS questionnaires once (5-10 minutes) and perform two brief motor exercises to determine the onset and progression of muscle fatigue. The exercises will last about 20 minutes, with an additional 10 minutes for preparation. Each contraction will last a maximum of 2 minutes. The project will last 12 months (Swiss section) and will be conducted at \[(1) the nursing homes of the Multistruttura di Bellinzona, the Fondazione Parco San Rocco facilities in Morbio Inferiore and Coldrerio, and the Opera Charitas nursing home in Sonvico\] (period: December 2024 - May 2025); and (2) at the \[San Raffaele University Research Institute\] in Milan, Italy, where 40 older adults with Parkinson's disease will participate (September 2026 - March 2027). This research project is conducted in accordance with Swiss legislation and current international ethical guidelines. It has been reviewed and approved by the Ethics Committee of the Canton of Ticino. 2. Study procedure The testing session will last a maximum of 30 minutes and will include the following steps: Discussion of the study procedures. Verification of appropriate leg clothing. The exercise can be performed either by wearing shorts or by rolling up long trousers to expose the upper half of the thigh. Review of the completed Pittsburgh Fatigability Scale (PFS) questionnaire and completion of the Fatigue Severity Scale (FSS), both available in Italian. Performance of two motor exercises (a surrogate walking test and a handgrip test). 1. First, participants will be instructed on how to perform the surrogate walking test, which evaluates leg muscle fatigue. During the exercise, participants will push with their legs and foot on a movable platform that slides along rails within the device. The sliding motion is resisted by elastic bands that stretch and shorten as participants push. The exercise will be repeated for several cycles until participants are told to stop. To measure muscle fatigue, surface electrodes (non-invasive) will be placed on the skin over two thigh muscles. 2. After a 5-minute rest, participants will be asked to perform the handgrip test with participants' right hand (see Figure 3). The maximal handgrip test will be performed while seated, with participants' forearm resting on a table. The test will be repeated several times until participants are instructed to stop.
NCT04370665
This clinical trial focus on the delivery of Cerezyme® in Parkinson's Disease (PD) patients using MR-guided focused ultrasound (MRgFUS) induced opening of the blood-brain barrier (BBB).