View clinical trials related to Parkinson Disease.
Filter by:Variable Frequency Stimulation(VFS) is a stimulation pattern applied in Deep Brain Stimulation(DBS) therapy for Parkinson's disease(PD). Peking Union Medical College Hospital was the first centre conducting research on VFS. The studies in the past have resembled conclusion that VFS provides improvement not only in the major symptoms such as tremor and rigidity, but also in gait and balance disorder. However, the best programming strategy of VFS has not met agreement. The random-controlled double blinded crossover study is designed for participants who underwent DBS surgery in bilateral subthalamic nucleus for parkinson's disease. The investigators study several strategies on programming and observe the improvement of symptom to look for the best one. A 4-month follow-up is designed to observe a relatively long-term effectiveness of VFS. The study intends to gather more clinical evidence to guide further studies on VFS application.
Neuroscientific research has shown a close relationship between physical fitness and cognition, showing a positive effect of physical activity (e.g., aerobic activity) on the maintenance of psycho-cognitive well-being in the elderly. In particular, dancing seems to be very effective, as it involves both motor and multisensory aspects (touch, sight, hearing, proprioception), stimulating memory, motor learning and social interaction. In fact, dance increases sensory-motor skills and cognitive performance in the neurologically healthy elderly. Dance-based therapeutic approaches, in particular Argentine tango, have also been implemented in the context of neurodegenerative pathologies, including Parkinson's disease (PD) where motor (i.e., tremors, postural instability, motor slowdown) and cognitive difficulties (e.g., executive deficits) may coexist. Most of these studies have so far demonstrated a significant improvement in balance and a reduction in motor symptoms, while evidence regarding cognitive and emotional benefits brought about by dance remains limited. When investigated, cognitive benefits have often been evaluated at the level of global cognition (i.e., screening tests), without a detailed characterization of the effects of tango on cognitive and affective functioning (e.g., executive functions, social cognition, depressive symptoms), central aspects in Parkinson's disease.
The aim of this randomized clinical trail is to identify the impact of treadmill training on walking while doing dual task in patients with Parkinson's disease. By improving walking speed, bradykinesia would be reduced in Parkinson's patients. So, the findings of this study can help in formulation of future guidelines for management of Parkinson's that will help the clinicians to treat such patients in more efficient way.
The primary objective of this single-center, no-profit, longitudinal interventional randomized controlled, single-blind trial is to compare the effects of 2 different treadmill training treatments using C-Mill: the experimental one, endowed with augmented virtual reality (AVR) applications, versus the conventional one, the standard treadmill training in PD patients with gait and or balance disturbances. The main questions the study aims to answer are 1) Is the experimental treatment more effective than the conventional one? 2) Is it possible to identify predictive and indicative biomarkers of an outcome measure of rehabilitation using extracellular vesicles (cEVs) assessed by Raman spectroscopy? Participants will be randomized into two groups: the experimental group that will receive the experimental intervention, and the control group that will receive the conventional intervention. Both groups will train three times per week for 8 weeks, the first session starting from 25 minutes (25'). The experimental and the conventional treatments are planned to be progressive and will be individualized to the participant's level of performance. Clinical, neuropsychological, and instrumental variables will be collected at baseline (T0), at the end of the treatment (T1), and 3 months after the end of treatment (T2). At 6 months after the end of treatment (T3), a phone interview will be performed. Both within-group and between-group analyses will be conducted. Biosamples will be collected at baseline (T0) and at the end of treatment (T1).
This is a phase I, interventional, single arm, open-label, clinical study to evaluate the safety and efficacy of the striatal transplantation of autologous induced neural stem cell-derived DA precursor cells in Parkinson's Disease patients.
Individuals with Parkinson's disease demonstrate impaired motor learning, including a slower acquisition rate and poor retention, which may result from deficits in cognitive function, especially executive function. Considering the reduced motor learning ability in this patient group, exercises should be designed with a focus on strengthening sensory inputs and basic functional training. Therefore, the investigators established this program according to previous experience published study [NCT04063605]. Therefore, the feasibility of this rehabilitation protocol, which combines motor learning and clinical pilates principles and is adapted to the needs of individuals with Parkinson's disease, will be examined.
The main objective is to describe strategies (verbal, non-verbal (gesture, intonation), and environmental), designed and used by the assisting/aided dyad to feed a dysphagic dependent person by articulating the safe and hedonic dimensions in the context of Parkinson's disease or atypical parkinsonian syndrome during a meal
Propofol is a short-acting general anesthetic drug commonly used in clinical practice, with rapid clinical onset of action, amnesic, anxiolytic, antiepileptic, and muscle relaxant effects. The lack of natural antioxidants in patients with Parkinson's disease and propofol's ability to protect the brain by inhibiting oxidative stress, its pharmacokinetic and pharmacodynamic properties make propofol a suitable anesthetic drug for functional stereotactic surgery in patients with Parkinson's disease. However, changes in brain functional status during propofol anesthesia in Parkinson's patients are unknown. There is a lack of data from extensive clinical studies to support the need for propofol dosing during induction of anesthesia compared with non-Parkinson patients. This study is a prospective cohort study designed to compare the differences in propofol dosing requirements during induction of propofol anesthesia in patients with PD versus non-PD and to monitor the characteristics of altered brain functional status such as EEG and cerebral blood flow autoregulation capacity in PD versus non-PD patients during the perioperative period.
The ability to respond to multiple stimuli is impaired in Parkinson's patients. Traditional rehabilitation approaches focus only on balance and gait training, but individuals with Parkinson's disease need to perform multiple tasks in daily life.
Sixty patients will be enrolled in this study who are treated for Parkinson's disease (PD) with bilateral deep brain stimulation of subthalamic nucleus (STN) or globus pallidus (GP), who have a pre- operative 7 Tesla MRI including diffusion tensor imaging for tractography and a postoperative head CT for electrode localization, and in whom at least 3 months have passed since activation of their neurostimulators, for stabilization of clinical stimulator settings. Using their MRI and CT, the investigators will construct patient-specific models of electrical current spread to neuroanatomical tar- gets surrounding the electrode. Then applying nonlinear (particle swarm) optimization, patient- specific stimulator settings will be designed to maximally or minimally activate specific path- ways. In STN DBS: pedunculopallidal vs. pallidopeduncular pathways. In GP DBS: pallidopeduncular pathways at its origin in GP pars interna (GPi) vs. inhibitory afferents to GPi (from GP pars externa GPe). All stimulation falls within the the FDA-approved range for DBS for PD.