Active clinical trials for "Parkinson Disease"

Investigators will enroll patients who are already selected to undergo deep brain stimulation surgery based on standard of care. The surgical implantation of the leads will be based on standard of care and will be completed with FDA-approved leads that are routinely used at Cleveland Clinic. The pulse generators (i.e. the battery) will also be standard. The research will characterize spontaneous and task-related changes in brain activity recorded from these regions alone and in relation to novel paradigms / settings of stimulation to learn how such paradigms impact both the symptoms of patients with Parkinson's disease and the underlying neural activity of the target brain region. Of particular interest is to learn if the novel paradigms of stimulation will have a lower impact on cognitive function than current settings of stimulation.To date, current DBS settings are continuous. That is, stimulation runs at approximately 200 pulses per second, all day long, day and night. The novel settings that investigators will study are part of a translational pipeline at Cleveland Clinic. Dr. Ken Baker and Dr. Machado are partners in the lab and in clinical research. Dr. Baker has completed preclinical research that has shown that it is possible to achieve excellent relief of parkinsonian symptoms with intermittent types of stimulation known as coordinated reset. In other words, Dr Baker found that using a lower dose of stimulation in an intermittent fashion can maintain the same level of symptom control. Furthermore, a lower dose of stimulation could have less effects on cognitive symptoms. In order to test these novel paradigms of stimulation, investigators will study patients immediately after DBS and over time. The immediate research will be done starting on the third day after implantation of the DBS lead(s), having the systems externalized for nine days. The long-term research will be conducted with patients already fully implanted and healed from surgery. In addition to evaluating for motor and cognitive tasks using computer based assessments, investigators will utilize non-invasive electrophysiological measures including EEG, EMG, MEG, and wearable accelerometer/gyroscopes to better characterize the effects of stimulation settings.

Parkinson's disease (PD) is the second most common neurodegenerative disorder. PD is characterized by motor symptoms, such as bradykinesia, tremor, and rigidity. Although balance impairment is characteristic of advanced stages, it can be present with less intensity since the beginning of the disease. Approximately 60% of PD patients fall once a year and 40% recurrently These falls may be correlated with the inability to achieve compensatory movements to regain balance when their center of gravity tends to swing outside their range of stability, which is reduced in this disease. On the other hand, cognitive symptoms affect up to 20% of patients with PD in early stages and can even precede the onset of motor symptoms. There are cognitive requirements for balance and can be challenged when attention is diverted or reduced, linking a worse balance and a higher probability of falls with a slower cognitive processing speed and attentional problems. Cognitive rehabilitation of attention and processing speed can lead to an improvement in postural stability in patients with Parkinson's. The investigators present a parallel and controlled Randomized Clinical Trial (RCT) to assess the impact on balance of a protocol based on cognitive rehabilitation focused on sustained attention through the NeuronUP platform (Neuronup SI, La Rioja, España) in patients with PD. This therapy opens the possibility of new rehabilitation strategies for prevention of falls in PD, reducing morbidity and saving costs to the health system.

This study aims to assess the efficacy of custom-made shoe insoles, for subjects with Parkinson's Disease (PD). To do that, a sample of PD subjects has been randomly assigned to an intervention group that will receive the custom-made insoles or a control group that will receive a sham insole without any specific manufacturing. Both groups will receive Physiotherapy and Occupational Therapy according to PD rehabilitation guidelines. The principal outcome will be the Time Up&Go test time, secondary outcomes 10 Meters Walking test speed, Berg Balance Scale score, SF12 score, and orthesis liking.

Is treatment with the Leap Motion Controller device effective for upper limb functionality in individuals with Parkinson's Disease? The present study presents two hypotheses: True hypothesis: There is an improvement in the functionality of MMSS after intervention with virtual reality? Null hypothesis: There is no improvement in the functionality of MMSS after intervention with virtual reality? The proposed work will be characterized as a Randomized Clinical Trial, with evaluators outside the experimental groups (single-blind). The sample will be probabilistic, from individuals diagnosed with Parkinson's disease.

The purpose of study is to demonstrate the pharmacodynamic (PD) effects of E2027 on cerebrospinal fluid (CSF) cyclic guanosine monophosphate (cGMP) in participants with DLB and PDD with and without amyloid copathology after 9 weeks of treatment.

The purpose of the study will investigate the safety and effectiveness with eight-week cycling-cognitive dual-task training for early Parkinson's disease.

Parkinson's disease (PD) is the second most common neurodegenerative disease in the world, considering the central nervous system disorders that affect movement. In addition to motor impairment, the literature reinforces changes in ventilatory parameters, such as restrictive lung dysfunction, obstructive airway disease, and upper airway obstruction. Pulmonary disorders are more evident in patients in later and advanced stages of PD, and are responsible for most of the morbimortalities resulting from the disease. Objectives: To evaluate the effects of a protocol of diaphragmatic awareness, in association with the global exercises, on the pulmonary function of individuals with Parkinson's disease. Methods: This is an experimental, uncontrolled clinical trial. Participants are patients with Parkinson's disease referred for care at the UEAFTO / CER-II UEPA neurofunctional outpatient clinic whose records will be consulted for the collection of epidemiological data and postural assessment of cognitive functions through protocol Montreal Cognitive Assessment (Brazilian experimental version) and classification by modified Hoehn and Yahr scale. Those who meet the inclusion criteria will be evaluated through the evaluation form, Pulmonary Functional Status and Dyspnea Questionnair protocol, submitted to Pulmonary Function Test and respiratory muscle strength assessment by Spirometry and Manovacuometry, respectively. They will be submitted to an intervention protocol prepared by the physiotherapy team of UEPA's Elderly Care Center for 20 sessions lasting 60 minutes twice a week, consisting of global exercises and diaphragmatic awareness, being re-evaluated in the 10th and 20th sessions. The protocol used will be registered in the Clinical Trials database. All participants will sign a Free and Informed Consent Form and the research will be submitted to analysis by the Human Research Ethics Committee of the University of the State of Pará (UEPA). The data collected will be tabulated in a Microsoft Excel 2016® worksheet for further statistical analysis using BioEstat® 5.3 software. Expected results: obtain an improvement in the variables related to pulmonary function in the experimental group after the application of the intervention protocol and in relation to the control group.

People with Parkinson's disease (PD) often show gait impairments such as, shuffling gait, short steps and gait asymmetry and irregularity. These gait problems are already apparent in the early disease stages, having an immense effect on daily life functioning. Especially Freezing of Gait (FOG), where the patients are not able to initiate or continue their movement despite their intention to do so, is a debilitating problem. It is thought that lack of gait adaptability could be an underlying cause of FOG. With a split-belt treadmill the speed of both legs can be controlled independently, which forces participants to actively adapt their gait to the new situation. In a previous study performed at our lab, it was shown that only one session of split-belt training (SBT), in which the speed of one leg was reduced, improved gait adaptability and other gait features compared to tied-belt training (TBT). Furthermore, overground turning speed improved after only one single training session and this was even retained 24 hours later, indicating training induced long-term potentiation. Since the short-term effects of SBT are promising, the objective of this study is to investigate if 4 weeks of SBT, 3 times a week, has an effect on gait deficits found in individuals with PD, compared to 4-weeks, 3 times a week, of TBT.

Parkinson disease is a progressive neurologic disorder characterized by motor impairments which alter the walking capacity, and lead to reduced walking speed, decreased stride length and increased double support time. Physical therapy interventions are an important part of the non-pharmacological treatment for Parkinson disease. The purpose of this study was to assess whether there is a different outcome regarding improvement of walking speed, when applying a physical therapy program in an individual or in a group manner. A prospective, observational, cohort type study on 60 patients with Parkinson disease was carried out between November 2014 - July 2017, in the Clinical Rehabilitation Hospital in Cluj-Napoca, Cluj county, Romania. Patients were randomly divided into 2 groups, and were prescribed either individual (1 patient and 1 physical therapist) or group physical therapy (6 patients and 1 physical therapist). Treatment protocol included 10 sessions of physical therapy, in the same room setting and performed the same routine of exercises, except for the 3 breaks during the sessions in the group therapy for informal socialization. Walking speed was measured by two validated instruments, the 6-minute walk test and the 10-meter walk test, before and after treatment. Patients with PD could benefit more from a group physical therapy program, as gait speed increased significantly. The group approach facilitates interactions and is cost-effective, as it requires only one therapist and more patients.

This study is to evaluate the safety and tolerability and to characterize the pharmacokinetics of multiple ascending dose (MAD) of LY03003 following intramuscular injections.