Study on the Efficacy and Safety of Rechargeable Implantable DBS System in the Treatment of Parkinson's...
Parkinson DiseaseThe purpose of this clinical trial is to verify the efficacy and safety of rechargeable implantable deep brain stimulation (DBS) system for the treatment of advanced primary Parkinson's disease.
Spinal Cord Stimulation for Gait Dysfunction in Parkinson's Disease
Parkinson DiseaseFreezing of GaitParkinson's disease (PD) is the second commonest neurodegenerative disorder, affecting over 145,000 people in the UK. Initially, PD patients experience slowness of movements, limb stiffness, and tremor. With progressive loss of neurons over time, many patients start to experience balance and walking problems, and falls, which are resistant to currently available treatments. Falls can lead to fractures and nursing home admission, and can significantly shorten patients' life expectancy. In this pilot study, the investigators will investigate the effects of spinal cord stimulation (SCS) on gait and balance in PD. Some open-labelled studies have shown possible beneficial effects of SCS in PD, although it is uncertain which type of PD patients will benefit most and which stimulation parameters work best. The investigators will assess the effects of SCS on posture and gait using a series of clinical, laboratory, imaging, and wearable measurements. The participants will receive a percutaneous implantation of a spinal cord stimulator to minimise the possible adverse effects related to the surgery. The SCS will start one month after surgery. The investigators will use a double-blind cross-over design. The participants will receive three different stimulation parameters, including sham stimulation, in a randomised order. The participants and the assessors will be blinded to the stimulation parameters.
Bladder Complaints in Parkinson's Disease Effectiveness of Pelvic Floor Muscle Exercises and Electrical...
Lower Urinary Tract SymptomsParkinson DiseaseThe goal of this clinical trial is to compare the effect of pelvic physical therapy with different types of electrical stimulation(ES) for bladder complaints in people with Parkinson's disease. The main question it aims to answer is: What is the effect of pelvic physical therapy with ES for bladder complaints in people with Parkinson's disease. Secondary question: What is the most effective type of ES on bladder complaints in people with Parkinson's disease. Participants will be randomized into three groups. Two different kinds of ES and a sham group. Participants will receive eight session of pelvic physical therapy. Pelvic physical therapy consists of e.g. bladder training, pelvic floor muscle exercises and biofeedback.
Clinical Trial Evaluating the Efficacy and Safety of AGB101 for Treatment of Parkinson's Disease...
Parkinson Disease PsychosisThis clinical trial will test whether AGB101 (low-dose levetiracetam, 220 mg, extended release tablet) can improve symptoms of psychosis in Parkinson's disease. Participants will be asked to complete up to 5 in-person study visits over approximately 20 weeks. Participants will receive both AGB101 and a placebo to take once a day for 6 weeks, with a 4-week washout in between. Participation will also involve physical/neurological exams, questionnaires, paper and pencil tests, providing blood and urine samples, and completing two MRI exams.
Visual Perturbation Training to Reduce Fall Risk in People With Parkinson's Disease
Parkinson DiseaseVestibular Disorder2 moreFalls during walking are common in people with Parkinson's Disease (PD). Fall risk can be attributed in part to the loss of automaticity in walking and an increased reliance on sensory cues, such as the input from the balance organ. In this project the investigators want to assess the effectiveness of rehabilitation training aiming to improve this vestibular input. The effects of a visual perturbation training in a virtual reality environment will be compared to conventional treadmill training.
Clinical Study on the Efficacy of Natural Stem Cell Mobilizers on Parkinson Disease
Parkinson DiseaseParkinson's disease is defined as the progressive loss or deterioration of dopaminergic neurons, Treatment approaches to maintain the normal dopamine level that include medication, surgery, cell therapy supplementation of L-Dihydroxyphenylalanine (L-Dopa), a precursor of dopamina, Stem cells from bone marrow can be mobilized according to the need of repair of the tissue. Suggested use of the food supplement actually sold in the USA and in Europe: Take two capsules, 1 to 3 times per day with a glass of water. Increase the Stem Cell circulating in the peripheral blood.
A Study to Evaluate the Effects of ACI-7104.056 Vaccination in Patients With Early Stages of Parkinson's...
Parkinson DiseaseParkinson Disease 61 moreThe purpose of this study is to evaluate the safety, tolerability, immunogenicity, and pharmacodynamic effects of ACI-7104.056 vaccination in patients with early stages of Parkinson's disease.
Deep Brain Stimulation for Parkinson's Disease: Probabilistic STN Targeting Under General Anaesthesia...
Parkinson DiseaseDeep brain stimulation (DBS) of the sub-thalamic nucleus (STN) has evolved over the past decades as a mainstream therapy for advanced Parkinson's disease (PD). The classical procedure consists in STN indirect targeting based on stereotactic atlases or statistical coordinates in AC-PC (Anterior Commissure - Posterior Commissure) referential along with target control and correction by micro-electrode recordings (MER) and awake clinical testing. To avoid potential complications and patient discomfort related to current procedure, asleep surgery without this control process has become more and more performed, essentially thanks to the progress of neuroimaging allowing to STN visualization. However, it has been reported a relative inaccuracy between the "radiological" STN delimitated on several types of MRI sequences (T2, T2*, SWI) and the per-operative electrophysiological findings. As a result, there are currently many types of STN-DBS procedures, and the lack of standardization between techniques complicates the interpretation of postoperative results on anatomical, electrophysiological and clinical points of view. Furthermore, to date, it has not been proven that asleep surgery without MER and clinical controls is as effective as the standard procedure in a prospective controlled randomized clinical trial. Investigators hypothesize that the clinical-based 18 landmarks STN target will be precise enough to allow to perform surgery under general anesthesia without MER correction, and accurate enough to achieve non inferior clinical results compared to what is usually done in each centre. The main objective is to compare at one year, the % of motor improvement after PARKEO 2-targeting asleep DBS without intraoperative MER versus the targeting procedure using intraoperative MER by the UPRDRS 3 (Unified Parkinson's disease rating scale 3).
Safety and Efficacy of Adaptive Deep Brain Stimulation
Parkinson DiseaseThe aim of this study is to assess the safety and the potential efficacy of personalized Local Field Potential (LFP)-based adaptive Deep Brain Stimulation (aDBS), using the implantable pulse generator (IPG) of the "AlphaDBS" System, in Parkinson's Disease patients, chronically implanted in subthalamic nucleus (STN) for DBS, at the time of IPG replacement.
Uncovering a Novel Therapeutic Target to Reduce Dementia Risk in Parkinson's Disease
Parkinson DiseaseMild Cognitive Impairment1 moreThe present study is a proof-of-concept clinical trial to test the efficacy of low doses of a repurposed anti-epileptic drug (levetiracetam) in treating memory problems in Parkinson's disease (PD). Neuroimaging techniques will be used to determine the effect of the drug on specific brain regions (hippocampal subfields). Finally, baseline brain activity of PD patients with memory problems will be compared to PD patients without memory problems and healthy older adults to determine if activity in specific brain regions (hippocampal subfields) can be used to predict memory problems in PD. This information will be useful for future clinical trials to target drugs to these brain regions.