Active clinical trials for "Parkinson Disease"

Hand movements are particularly impaired in Parkinson's Disease (PD) patients contributing to functional disability and difficulties in activities of daily living. AMADEO®. is an end-effector system enables intensive training with frequently repeated gripping movements. It offers the possibility to select from between passive, assistive and active modes using exercise of finger strength, finger movement, movement control and a selective activation of the fingers.Aim of this study is to evaluate the efficacy of the end-effector finger system, AMADEO®, on hand-finger movements in PD patients evaluating the improvement on finger tapping and agility of hand movement item scores on the MDS-UPDRS, variation on the active finger strengths and the active and passive Range of Motion (ROM); variation on Electromyographic (EMG)-parameters.

Study design: This is a prospective, open-label, single-center, and sponsor-initiated clinical trial. The clinical trial follows the Clinical Investigation Plan, GCP. Objective: The objective of the clinical trial is to evaluate improving Parkinson's disease motor features by MR-guided focused ultrasound surgery (Patient who has less effectiveness.).

Depressive symptoms are common non-motor symptoms in patients with Parkinson's disease and seriously affect the quality of life and prognosis of patients. Currently, treatment measures for patients with Parkinson's disease with depression are mainly limited to pharmacotherapy, but the side effects of antidepressants and their interaction with anti-Parkinsonian drugs limit the use of pharmacotherapy. Repetitive transcranial magnetic stimulation (rTMS) is a new painless and non-invasive neuromodulation technique that is commonly used in the treatment of depression. As the number of people with Parkinson's disease increases in China, the number of patients with Parkinson's disease and depression requiring rTMS treatment will also increase. The size and shape of individual brains, the distance between the stimulation coil and the responding neuronal tissue, and the location and orientation of anatomical structures are all different, and the use of common localization methods is usually limited by these individual anatomical differences. The traditional method relies on manual positioning of the coil, which is time-consuming and inefficient, and it is difficult to meet the requirements of position, angle, and coil orientation simultaneously. Studies have shown that the benefits of using navigation for rTMS treatment are up to twice as high as those of non-navigation methods. Therefore precise localization is a must for the future standardized application of rTMS in the development of patients with Parkinson's disease with depression. In this study, we applied repetitive transcranial magnetic stimulation with neuronavigation to treat patients with Parkinson's disease and depression, and reconstructed cephalometric models with individual cranial imaging data to individualize and precisely target stimulation sites, making rTMS more precise and effective in treating patients with Parkinson's disease and depression, and providing new avenues for further clinical and scientific research.

We aim to confirm the effect for FOG by changing the frequency through the dual-system approach in PD patients after STN-DBS.

The objective is to investigate whether AMPS (Automated Mechanical Peripheral Stimulation) is effective in reduction of FOG measured via the FOG-AC (Freezing Of Gait Assessment Course) in people with Parkinson Disease and STN-DBS (Subthalamic Nucleus Deep Brain Stimulation) in a randomized, double-blind, sham-controlled, cross-over trial

Idiopathic Parkinson's syndrome (IPS) is one of the most common neurodegenerative diseases. The prevalence and significance of this disease is continuously increasing in the course of demographic change. For many decades, the focus of diagnostics and therapy was on the motor symptoms of IPS. Only in recent years, it has been recognized that Parkinson's patients also suffer from a variety of non-motor symptoms. These have a decisive influence on the patient's quality of life. As one of the most common non-motor symptoms, 55 to 80% of IPS patients suffer from urinary dysfunction. This is associated with a very high impairment of quality of life due to a high degree of stigmatization and impairment of social participation. In clinical everyday life, Parkinson's patients regularly report the occurrence of a strong imperative urge to urinate, which occurs suddenly and is usually triggered by a certain external stimuli. Specific cognitive processing and reflection of these external stimuli seems to help overcome the imperative urge to urinate. From this clinical observation, it can be assumed that the imperative urge to urinate is subject to a certain cognitive control in the sense of targeted inhibition. The pharmacological therapy of urinary dysfunction in IPS patients is severely restricted and characterized by insufficient proof of efficacy as well as a high potential for side effects. In clinical practice, alpha-blockers and anticholinergics are frequently used, but the evidence base for IPS is inadequate. In addition, there is a highly relevant risk for Parkinson's patients of specific side effects such as orthostatic dysregulation or deterioration of cognition up to psychoses and hallucinations. This greatly limits their use especially in older IPS patients. While the use of dopaminergic medication is essential for the treatment of motor symptoms in Parkinson's patients, a large number of studies have not confirmed sufficient evidence for the efficacy of dopaminergic medication in urinary dysfunction. In addition, non-pharmacological therapy options, in particular pelvic floor training, are used to treat bladder dysfunction. Due to the lack of risk of side effects, pelvic floor training is currently recommended as a first-line therapy option for IPS patients. Initial studies have shown positive effects, but due to the lack of randomized controlled trials, a sufficient evidence base for this has not yet been established. The aim of the study is to examine whether a purely cognitive therapy approach is suitable to improve subjective and objective symptoms of urinary dysfunction in IPS patients. This therapeutic approach will be compared with the gold standard of pelvic floor training in terms of efficacy.

Progressive gait dysfunction is one of the main motor symptoms in people with Parkinson's disease (PD). It is generally expressed as reduced step length and gait speed, and as increased variability in step time and length. People with PD also exhibit stooped posture, which besides apparent disfigurement, also disrupts gait. The gait and posture impairments are usually resistant to the pharmacological treatment, worsen as the disease progresses, increase the likelihood of falls, and result in higher rates of hospitalization and mortality. These impairments may be caused by perceptual (spatial awareness) difficulties due to deficiency in processing information related to movement initiation and execution, which can result in misperceptions of the actual effort required to perform a desired movement and posture. Due to this, people with PD often depend on external cues during motor tasks. Although numerous studies have shown that cues can improve gait in PD, they did not provide feedback of the performance in real-time which is crucial to perceive, modulate, and achieve the desired movements. There are a few studies that provided real-time feedback using treadmill-based systems and observed improvements in gait in PD, however, they are not suitable for practicing target movements conveniently during free-living conditions, which can strongly reinforce movement patterns and improve clinical outcomes. There has been very little investigations of wearable real-time feedback (WRTF) systems to improve gait and posture in PD. The investigators are aware of only one study that tried to improve gait using a wearable system with real-time feedback capabilities, but the study did not provide any feedback on posture. Also, some of the parameters used for feedback were not easy to perceive and modulate in real-time. Based on the investigators' recent success with a treadmill-based real-time feedback system which improved gait and posture in people with PD, the proposed study will develop a WRTF system, validate its performance with gold standard measures from a motion capture system, and test its feasibility in a group of people with mild to moderate PD. The most novel aspects of the proposed system are that it will provide feedback on parameters such as step length, arm swing, step time, and upright posture which have been greatly affected in PD and shown to increase the risk factors for balance disorders and falls. In addition, the system will consists of two types of feedback: a Continuous Feedback (CF) mode and an On-Demand Feedback (ODF) mode. The CF mode will help users learn and practice desired gait and posture movements and the ODF mode will help to maintain them during activities of daily living. The gait and posture performances during feedback and non-feedback conditions will be compared and, if the expected benefits are observed, a follow-up randomized clinical trial will be performed to test the effectiveness of this novel technology during daily activities.

To test the effects of a serious game rehabilitation programme in 50 patients with Parkinson's disease with gait and balance disorders in a randomised controlled study

The recovery of walking ability is crucial to promote independence in daily living and is one of the major goal of neuromotor rehabilitation. Currently, standard rehabilitative programs are usually based on straight-walking training (SWT) and the assessment of their effects is performed through functional scales based on straight-walking trajectories, e.g. Timed Up and Go (TUG), 10 meters walking test (10mWT). Curved-walking training (CWT) may be interesting to provide an ecological and challenging context during rehabilitation. Indeed, CWT is based on demanding neural processes that drive an asymmetrical contribution at lower limb level, challenging balance ability and complex adaptation such as body weight shifting in response to centrifugal force and production of different step lengths. Up to now, literature has investigated CWT in healthy adults in terms of muscular activation, kinematics and kinetics of the movement. Results showed that CWT needs a different biomechanical strategy with respect to SWT. Nevertheless CWT has not been investigated in pathological adults. The present study aims at assessing the effectiveness of a rehabilitative physical therapy based on CWT with respect to traditional SWT for the recovery of locomotor abilities in neurological and orthopaedic patients. The hypothesis is that a training based on curved-walking is ecologically meaningful and may be superior with respect to standard training in improving balance, walking abilities, and independence in activity of daily live of patients. A secondary aim of the project is to propose an innovative functional scale based on the timed up and go on curved trajectory (CTUG), and to determine its reliability and responsiveness, establishing the minimum Detectable Change (MDC) and the Minimal Clinically Important Difference (MCID). A single-blind randomized controlled study is being carried out on three different populations: Post-acute stroke patients Idiopathic Parkinson Disease Femoral fracture A healthy group is also being recruited to provide reference values of CTUG. For each of the three populations, subjects are randomized into two groups. The experimental one performs a novel rehabilitative program composed by a 30-minute training on curved trajectory ("S" trajectory composed by two semicircle with a radius of 1.2 m) in addition to usual care. The control group performs an equal dose of traditional treatment on straight trajectories. Both groups undergo 20 90-minutes sessions of training (three times a week for seven weeks). Participants are evaluated at baseline (T0), after training (T1), and at a three-months follow-up visit (T2). The primary outcome measure is the 10mWT (minimal clinically important difference of 0.16 m/s identified by Tilson and colleagues). On the basis of this measure, a sample size of 70 subjects for each population was computed.

This Pilot study will evaluate the safety and Efficacy of an investigational cell transplantation therapy, h-NSC, in patients with Parkinson's disease, through nasal drug delivery, a new delivery way. All patients will receive the therapy, which consists of human neural stem cells,