View clinical trials related to Parkinson Disease.
Filter by:The purpose of this study is to determine the safety, tolerability and blood levels of orally administered anle138b as well as the effect of food and early signs of efficacy in patients with mild to moderate Parkinson´s disease.
This is a 10-week randomized, controlled study to investigate the effect of a Mediterranean diet intervention on gastrointestinal function in Parkinson's disease. After a 2-week run-in period, participants will be instructed to receive standard of care for constipation or receive standard of care + follow a Mediterranean diet for 8 weeks and answer daily and weekly questionnaires. Nutritional and neurological evaluations and stool samples will be collected at 0, 4 and 8 weeks.
Our project is based on the fundamental hypothesis that epidural spinal cord stimulation (SCS) improves Freezing of gait (FOG) in patients with Parkinson's disease. In eight patients implantation of electrodes for SCS at the epidural thoracic level will be performed under general anaesthesia. Evaluation of gait and motor symptoms will be performed with and without stimulation, after a 3-month period for each of the stimulation conditions.This is a pilot, single centre, prospective, randomized, double blinded, cross-over study.
This is an 8 week observational study to evaluate the feasibility of using remote monitoring technologies in future studies of PD. The study will 2 clinical evaluations (one initial, one final), and an 8-week monitoring period including 4 virtual visits where participants will use a combination of digital devices (Emerald touchless sensor system with associated ankle accelerometer, iPhone, Apple Watch, iPad, Fitbit Aria, FitBit Versa, Withings Blood Pressure Monitor Connect, and/or Withings Sleep Mat) during their daily lives.
People with Parkinson's disease use compensatory strategies to overcome typical gait disturbances. These strategies rely on attentional mechanisms, however people with Parkinson disease suffer of decline in cognitive function. Therefore, the current study aims at exploring brain engagement and focus of attention process during walking with these compensatory strategies, in people with Parkinson disease. Such exploration would assist in understanding the feasibility of the compensatory strategies in daily lives of people with Parkinson's disease.
Parkinson's disease (PD) is a progressive neurodegenerative disease characterized with both clinical motor and non-motor features, as well as decrease in balance performance and walking endurance. The non-motor symptoms such as depression, anxiety, sleep disturbance and fatigue wound impose negative impacts on the quality of life of the individuals with PD. Aerobic endurance training can improve physical capacity and reduce those non-motor symptoms such as mood and sleep disorders. Based on the results of our recent pilot study, brisk walking is a safe and moderate-level aerobic walking exercise for improving walking capacity in the PD population up to 6 week after treatment ended. Community-based balance training could also enhance balance performance and dual-task gait performance up to 12-month follow-up for people with PD. The primary purpose of this proposed study is to investigate the short- and long-term effects of a 6-month balance and brisk walking programme in alleviating non-motor and motor symptoms in people with PD. The secondary objective is to examine the short- and long-term effects of a 6-month balance and brisk walking program on enhancing walking capacity, balance performance, and quality of life.
Analysis of gaze patterns during social cognition tasks and standardised exploration of a specific artwork, between elderly subjects without cognitive disorders and subjects with neurodegenerative diseases such as Fronto-Temporal Dementia, Alzheimer's Dementia or Parkinson's Disease
The purpose of this investigation is to determine the optimal DRT/VIM target location and its safety margins based on MR-SISET imaging features by comparing with postoperative lesions and clinical outcomes in patients with tremor who will undergo the MRgFUS tremor therapy.
For drivers with Parkinson's Disease (PD), autonomous in-vehicle technologies may help mitigate functional deficits, improve driving performance, decrease driving errors and enhance their ability to stay on the road. Using a pretest/posttest design the investigators will quantify the use of In-vehicle Information Systems (IVIS) and Advanced Driver Assistance Systems (ADAS) during driving to illustrate how IVIS and ADAS may affect driving, and provide recommendations to drivers with PD, the clinical community and industry.
Parkinson's disease and essential tremor are chronic movement disorders for which there is no cure. When medication is no longer effective, deep brain stimulation (DBS) is recommended. Standard DBS is a neuromodulation method that uses a simple monophasic pulse, delivered from an electrode to stimulate neurons in a target brain area. This monophasic pulse spreads out from the electrode creating a broad, electric field that stimulates a large neural population. This can often effectively reduce motor symptoms. However, many DBS patients experience side effects - caused by stimulation of non-target neurons - and suboptimal symptom control - caused by inadequate stimulation of the correct neural target. The ability to carefully manipulate the stimulating electric field to target specific neural subpopulations could solve these problems and improve patient outcomes. The use of complex pulse shapes, specifically biphasic pulses and asymmetric pre-pulses, can control the temporal properties of the stimulation field. Evidence suggests that temporal manipulations of the stimulation field can exploit biophysical differences in neurons to target specific subpopulations. Therefore, our aim is to evaluate the direct neurophysiological effects of complex pulse shapes in DBS movement disorder patients. This will be achieved using a two-stage investigation: stage one will study the neural response to different pulse shapes using electroencephalography (EEG) recordings. Stage two will study the neural responses to different pulse shapes using intra-operative local field potential (LFP) recordings. This study only relates only to the collection of EEG and LFP recordings in DBS patients. The protocol does not cover any surgical procedures, which already take place as part of the patient's normal clinical care.