Active clinical trials for "Parkinson Disease"

This study will investigate the effects of a contingency-based musical walking intervention program called Ambulosono on neural mechanisms in the brain. The investigators will investigate the long-term impact of Ambulosono on brain plasticity with functional MRI technique. Participants will undergo 3 months of Ambulosono training and their pre-training and post-training fMRI brain scans will be compared to understand the neural networks and brain mechanisms following this intervention. The investigators hypothesized that Ambulosono may induce functional compensatory reorganization of neural networks in the brain. This project will allow us to address the important potential confound of placebo influence and to aid in optimizing this intervention program. Additionally, the investigators are hoping to investigate the synergistic effects of rasagiline and exercise; the investigators' hypothesis is that there will be a positive synergistic effect, and that exercise will augment the effectiveness of rasagiline in treating Parkinson's symptoms.

The investigators have developed a three-part allied health care intervention to be delivered via telehealth. These interventions are usually provided face-to-face. Telehealth access to healthcare is needed for people with Parkinson's disease living in rural locations, where providers are sparse and long travel times are often not feasible because of weather conditions, as well as the hallmark symptom of Parkinson's disease, movement disorders

This study aims to explore the use of full immersion virtual reality technology on improving balance in those with Parkinson's Disease. Patients will be immersed in a virtual environment and be tasked with completed games and activities, which mirror activities of daily living. It is hypothesized that this immersion in the virtual reality environment will improve their sensory pathways which are used to improve balance, decreasing falls.

Parkinson's Disease (PD) patients suffer from gait impairments responsible for falls and bad quality of life: reduced speed and stride length, randomness in stride duration variability (reduced Long-Range Autocorrelations (LRA)). On the other hand, treadmill walking has shown long-term effectiveness on PD patients' gait and quality of life. The purpose of this single blinded randomized controlled trial is to study the effect of a combination of immersive virtual reality and treadmill walking on LRA.

This study aims to examine the short term and long term safety outcomes of the treatment of PD patients with umbilical cord derived stem cells as indicated by the presence of adverse events that are confirmed to be related to the therapy.

The aim of the iPARK-study is to investigate the effects of a process-based cognitive training program with focus on working memory in patients with Parkinson's Disease (PD). The study is a double blinded, randomized controlled trial with a parallel group design that aim to recruit 80 persons with PD. All patients will undergo 30 sessions (6-7 weeks) of web-based cognitive training performed at home. The working memory training is a process-based training program focusing specific on updating. The placebo program is a low dose short term memory paradigm without updating. A battery of neuropsychological tests (working memory, attention, episodic memory, inhibition control, risk taking and motoric speed) and questionnaires (everyday functioning and psychological health) will be performed before training and directly after training and after 16 weeks. Patient expectation and measures of adherence (motivation and results during training) will be controlled for. The iPARK trial is expected to provide novel and clinical useful information whether updating training is an effective training paradigm in PD. Further it will hopefully contribute to a better understanding of cognitive function in PD.

Postural abnormalities (PA) are drug refractory complications in patients with Parkinson's disease (PD) leading to pain, imbalance, gait disorders and fall-related injuries. It ultimately affects the quality of life and the hospitalisation risk. the literature on treatment outcomes is scant. Rehabilitation is the cornerstone in the management of PD patients, especially for drug-refractory complications. However, the current efforts are only partially able to resolve PA in PD. Despite differences in methodologies, the few rehabilitative studies support the benefits of trunk rehabilitation in PD with PA. Priorities for future research include well-design rehabilitation studies on a large population. The early detection and early rehabilitation of PA might avoid fixed irreversible deformities and reduce the complications that can accompany them. It ultimately might improve the quality of life, reduce the risk of fall-related injuries and hospitalisation rate. A single-blind single-blind Randomised Controlled Trial (RCT) will evaluate the effects of trunk rehabilitation on PA severity, function and disability in outpatients with Parkinson Disease and postural abnormalities.

In phenotypic animal models of Parkinson's Disease (PD), chronic physical exercise has produced nigrostriatal neuroprotection and symptom improvement, provided training was of high-intensity and prolonged duration (>3 months in rodent models). Conventional physical therapy in Parkinson's disease (PD) has traditionally avoided fatigue and high intensity workouts. Yet, in PD controlled studies have shown that: (i) an acute aerobic stress produces endogenous dopamine immediately after the exercise and (ii) short term (a few weeks) high intensity aerobic training enhances D2 striatal receptor density and cortical excitability and clinically improves walking, upper limb and executive functions; (iii) long-term (six months) high intensity aerobic treadmill training is associated with less deterioration of subjective UPDRS III score compared to a waiting list. Long-term high intensity aerobic training has not been compared to low or medium intensity training in PD patients for its objective motor, cognitive and putative neuroprotective effects.

To investigate the effect of concurrent transcranial direct current stimulation and gait training on gait performance when doing the cognitive dual-task in people with Parkinson's Disease.

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.