Active clinical trials for "Parkinson Disease"

Balance rehabilitation programs in people with Parkinson's disease (PD) that include functional exercises, i.e. using tasks of daily living in training, show improvements in variables related to balance and gait. In previous studies, the advantage of taking into account the specificity of the task and the inclusion of specific objectives for the motor rehabilitation of people with PD has been observed. The interventions with the best results are usually carried out in hospital centers or rehabilitation gyms and, in groups of people. Due to the situation experienced since last March 2020, due to the Covid-19 pandemic, group rehabilitation programs have been affected, especially in those pathologies that involve older age groups such as PD. For this reason, the need to transfer therapies to the home is considered, as well as to make people aware of the importance of continued rehabilitation, even from other settings. In the present study, we propose a rehabilitation program at home for people with Parkinson's disease based on balance with functional exercises, which will be compared with a home control group of people with PD that stay at home without any physical rehabilitation, and a conventional group physiotherapy program carried out in a rehabilitation gym in groups of 6 people. The effects of the experimental intervention and the control groups will be evaluated on outcomes related to balance using a dynamometric platform and outcomes related to gait through 3D photogrammetry.

The present research aims to carry out a double-blind, placebo-controlled clinical trial to study the efficacy of a new antioxidant. The primary outcome variables will be the changes observed in PD-motor and non-motor symptoms scales, as well as quality of life during a 6-months period. Global impression on the treatment will be rated after this period. Likewise, presynaptic changes will be studied in positron emission tomography studies, using 2 radiotracers and a dynamic image processing in patients with Parkinson's disease. 125 patients who have a definite diagnosis of PD will be included; 25 of them will be subjected to a triple-blind, clinical and molecular study. In addition, 25 other subjects from the same Institution and from 4 other collaborating centers will be part of the clinical arm of this study during the period September 2021- September 2022. During the first visit, various clinical data of the participants will be recorded such as: age, gender, family history, current medical conditions, and drugs dosage in addition to a comprehensive neurological examination. Subsequently, the signing of the informed consent will be obtained, and general laboratory tests and a brain RMI in 3dT1 and SWI sequences will be performed. A series of disease-specific scales will be applied in order to assess motor functional capacity, cognition, sleep, and other non-motor symptoms before drug delivery. Randomization will be made in blocks of 5 treatments: 3 nano-PSO and 2 placebos. Treatments will be delivered in form of bottles containing 100 capsules each after baseline and intermediate visit. 25 patients will also give their consent to perform 2 PET studies (positron emission tomography) to assess presynaptic dopaminergic function. This implies conducting these studies on 2 occasions (at the beginning and at the end of treatment), with emphasis on striatal activity to study the effect of treatment with Nano-PSO.

We are studying & researching the effect of CranioSacral Integrative therapy on Parkinson's Diseased Patients for 3 months. With a therapeutic induction via manual CranioSacral integrative therapy for 90 minutes per session with a total of 2 session divided equally in a month (biweekly intervention). At the end of 3 months each patient will have total of 9 hours of CranioSacral Integrative therapy induced, we will document the symptoms and shortcomings of the patients at evaluation, before and after therapeutic treatment on a measured scale ranging from 1-10. Finally graphically and statistically measure the quality of change in the symptoms at the end of 3 months and provide executive summary of the research finding, which the investigators expect to be a positive one.

The aim is to improve availability and acceptability of deep brain stimulation (DBS) for the treatment of Parkinson by shortening and simplifying the implantation procedure, thereby reducing time in surgery, complexity, post-surgery complications and cost, and increasing patient satisfaction. To facilitate the shortening and simplifying of the implantation procedure, a miniaturised skull-mounted DBS device (Picostim) has been developed which is optimised to generate waveforms needed for stimulation of the subthalamic nucleus (STN) and STN region, employing a unique method of controlling stimulation current. The planned study is a single centre, open label, non-randomised design with the primary objective of showing similarity in control of motor symptoms for the Picostim device compared with previously published data for existing DBS devices.

The aim is to establish adequate and suitable protocols for PD patients and to determine the WB-EMS effects on muscle strength, balance, walking, cognitive functions,neurotrophic factors and alpha-synuclein. Thirty-six PD patients, aged from 50 to 80 years, will be recruited and randomly assigned to two experimental groups (EGs and EGc) and one control group (CG), in order to perform dynamic movements with WB-EMS. EGs will undergo to 12-20 minutes of progressive supervised WB-EMS (4 sec. 85 HZ and 4 sec. rests) combined to light dynamic movements, two-time per week for 12/24 weeks. EGe will undergo to 12-20 minutes of progressive supervised WB-EMS 7 Hz) combined with cardiovascular training with rowing machine. CG will not perform any type of physical activity. Pre and post intervention assessment will be carried out on the following areas: physical assessment, neurocognitive, neurotrophic factors and alpha-synuclein assesments. A 3 months follow-up will be performed.

Sleep disturbances are one of the most common non-motor symptoms in PD, with an estimated prevalence as high as 40-90%. Sleep disturbances (particularly sleep duration, sleep fragmentation, Rapid Eye Movement (REM) sleep behavior disorder and sleep-disordered breathing) have been associated with an increased risk of neurodegeneration and are an independent risk for cognitive decline and dementia in PD. Although much is currently unknown about sleep changes in PD, sleep-related symptoms are increasingly recognized as a major contributor to disease burden and reduced quality of life among people with PD. The "gold standard" evaluation of nocturnal sleep is polysomnographic monitoring (PSG). This study proposes to use novel wireless skin electrodes and wearable sensors to provide a "home PSG test" incorporating several physiologic recordings, over multiple nights in the person's home, enabling the objective evaluation of night-to-night fluctuations.

Study Rationale: No accurate tests currently exist to diagnose Parkinson's disease (PD) and the conditions which mimic it (atypical parkinsonism) at a very early stage. Similarly there are no accurate ways to track how these diseases progress in a very precise manner. Recording eye movements and pupils may be a very sensitive way of doing this and may contain important information about a patient's diagnosis and their cognitive and motor function. Hypothesis: We hypothesize that measuring eye movements and pupil changes while people watch short video clips will differentiate PD and atypical parkinsonism at an early stage. We hypothesize that eye movements and pupil changes will be able to track how a person's disease changes over time and could even predict their disease course from the start. Before we can do this, we need to be able to accurately differentiate between PD and atypical parkinsonism and see how eye movements vary among people with the same disease. Study Design: We will ask a large number of people with PD and atypical parkinsonism to watch very brief video clips while we record eye movements and pupil responses. This is like changing the television channel every few seconds and observing what happens to a person's eyes as they search the new clip. We will compare these results between different disease groups and correlate them with clinical features of PD and atypical parkinsonism. Impact on Diagnosis/Treatment of Parkinson's disease: This may have enormous impact in the assessment of people with PD. It may become an important diagnostic tool, a prognostic marker at the early stage of disease, as well as providing the ability to track disease progression in clinical trials. Next Steps for Development: Once we can demonstrate that eye tracking can differentiate these conditions, we will follow a large number of patients to see how their eye movements and pupils change over time with their disease. If this is a reliable way to track disease it could be used to measure disease progression in these conditions and response to treatment.

There are many factors affecting the upper extremity such as tremor, bradykinesia, rigidity, and postural instability in Parkinson's patients. According to the International Classification of Functioning, Disability and Health (ICF) model, there are restrictions on people's activities and participation in life due to structural and functional disorders affecting the upper extremity in PD. In PD, integrating and using proprioceptive feedback, sensorimotor integration and peripheral sensory functions are reported to be impaired. Numerous studies show that the main source of motor problems in PD is dysfunction of sensorimotor integration. Since the cervical region contains a dense concentration of proprioceptive organs such as muscle spindles, it plays an important role in providing afferent proprioceptive information for postural control. Therefore, sensorimotor training targeting the cervical region gains importance. In this study, we aim to reduce PD-specific upper extremity disorders and related activity and participation limitations by increasing motor control in the cervical region with sensorimotor training. Patients with Parkinson's disease will be included in the study and randomly divided into 2 groups. While the general physiotherapy program will be applied to the control group, sensorimotor training will be given in addition to the exercise group.

Does dual hemispheric stimulation of the subthalamic nucleus (STN) and fornix/hypothalamus potentially improve cognitive function in patients with Parkinsons disease.

This project aims to improve how people with Parkinson's Disease (PD) walk. The global aim is to identify obstacles and solutions for people with PD for adopting technology to track and improve their gait to make them better and safer walkers. To meet this aim members of Parkinson Quebec will be surveyed about their technology readiness, physical, cognitive, and psychological health, and rehabilitation access. The survey should not take more than 20 minutes to complete on the web. Subsequently, a random sample of 100 survey participants will be offered a wearable device, the Heel2ToeTM sensor, designed to improve gait quality. This device emits a beep when a proper step is taken. This external cue reinforces the adoption of an adequate gait. In addition to the device, participants will be offered 5 sessions of telemonitoring to help them use the device optimally. Monitoring of use and outcomes will be over 3 months and the sensor is theirs to keep.