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Browse 1,818 clinical trials for parkinson's disease. Find studies that match your criteria and connect with research centers.
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NCT04895787
Background: Gait disturbance is one of the most common complaints from patients with Parkinson's disease (PD). It is well-established that people with PD have motor learning impairments. To enhance motor learning, several methods have been recommended, such as sleep, non-invasive brain stimulation techniques, and aerobic exercise. To date, only 2 studies have investigated the effects of acute aerobic exercise on motor learning in people with PD. It is yet unclear whether adding aerobic exercise after multiple motor training sessions can enhance motor learning in people with PD. Additionally, most prior evidences utilized moderate to high intensity aerobic exercise to facilitate motor learning, it is yet unclear whether other types of exercise (e.g., resistance training) could induce similar beneficial effects. Therefore, this proposed project is specifically designed to investigate the effects of adding aerobic or resistance exercise after motor training. To take a step further, this project will also determine the patient characteristics who may benefit from the intervention. Objectives: (1) To examine whether adding specific exercise after training can facilitate learning on patients with Parkinson's disease. (2) To determine the characteristics of participants who may benefit from these types of intervention approach. Methods: A total of 76 participants with idiopathic PD diagnosed by neurologists will be recruited. All eligible participants will be randomized into one of the 4 groups: aerobic group (AEX), resistance group (REX), conventional PT group (CPT), and control group (CON). All participants will receive 12 sessions of gait training. All outcome measures will be assessed before the intervention (pre-test), after the 6th intervention session (mid-test), after all 12 intervention sessions (post-test), and 1-month after the intervention (follow-up test). All assessments will be performed by an independent research assistant who will be blinded to the group allocation of the participants. The primary outcome will be gait performance, and the secondary outcomes will include measurements of cognitive and behavioral functions. Additionally, transcranial magnetic stimulation will be used to examine the changes of corticomotor excitability associated with the interventions.
NCT03577483
Parkinson's disease (PD) is the second most common neurodegenerative disease. Multiple system atrophy (MSA) is a relentlessly progressing rare neurodegenerative disease of unknown etiology. In early stages of the disease, PD and MSA symptoms are very similar, particularly MSA-P where Parkinsonism predominates. The differential diagnosis between MSA-P and PD can be very challenging in early disease stages, while early diagnostic certitude is important for the patient because of the diverging prognosis. Voice disorders are a common early symptom in both diseases and of different origin. The ambition and the originality of this project are to develop a digital voice-based tool for objective discrimination between PD and MSA-P.
NCT04368858
In patients with chronic illness, screening for falls and their health consequences are major public health issues. Muscle weakness, gait and balance disorders are among the most common risk factors for falling. Assessing these parameters would thus be a crucial step in the evaluation of the risk of falling, allowing to more precisely orient the management strategy. Combining inertial unit sensors with clinically validated tests can provide additional information to improve the assessment of fall risks. We therefore propose to constitute a monocentric exploratory study, testing a prognostic screening tool, in patients suffering from a chronic pathology, in order to assess the risk of falling in this population. Considering the relationship between muscle weakness and the risk of falling, we can assume that a deficit in muscle strength will result in less vertical acceleration which could point to a muscle cause of the balance disorder and thus allow a finer detection of the risk of falling. On the other hand, we hypothesize that spinal static disorders in chronic pathologies and in particular osteoarthritis, as well as balance disorders linked to impaired deep sensitivity lead to an increase in oscillations of the trunk when walking which can cause postural balance disorders thus increasing the risk of falling.
NCT03531086
DaTscanTM Ioflupane I123, a radiopharmaceutical will be used as an adjunct diagnostic tool in combination with single photon emission computed tomography (SPECT) to evaluate striatal dopamine transporter (DAT) distribution in patients with idiopathic Parkinson's disease. Patients will be monitored twice - once at baseline, and again after 1 year - to identify potential biomarkers for progression of Parkinson's disease.
NCT05497817
This research is being done to develop a unique matching process for caregivers of persons living with dementia, such as Alzheimer's disease, Lewy body dementia, frontotemporal degeneration, or other dementia syndromes. Dementia caregivers often assume greater caregiving burden than do non-dementia caregivers, and the caregiving duration tends to be longer. Many caregivers do not have the adequate support they need. Peer-to-peer support has been shown to improve quality of life, increase use of services, improve caregiver health, and reduce hospitalizations in the person they are caring for. This study will assess a technology platform and matching process for the purpose of peer-to-peer emotional support aimed at improving overall wellbeing in dementia care partners/caregivers.
NCT05621031
The goal of this clinical trial is to know the effects of an intervention in Parkinson's disease symptoms. The main question it aims to answer are: * Is whole body vibration able to reduce rigidity in Parkinson's participants? * Can whole body vibration modify gait abilities and other Parkinson's symptoms? Participants (subjects with Parkinson's disease) will do habitual therapy treatment. Experimental group will also carry out whole body vibration sessions and control group will do placebo whole body vibration sessions.
NCT04386863
The main aims of the observational study are to taxonomize the contents of rehabilitation understanding goals and treatments provided to people with Parkinson Disease(PD) and Multiple Sclerosis(MS) and Stroke and their impact on the outcomes
NCT04736017
The study aims to assess the efficacy of auditory slow-wave sleep (SWS) enhancement in PD patients and patients with amnestic MCI. Patients will be randomized to two groups: Group 1 will first be treated with auditory stimulation for two weeks and then - after a washout period - switched to two weeks of sham stimulation. Group 2 will first receive sham stimulation for two weeks and then - after a washout period - switch to two weeks of auditory stimulation treatment. The washout period in between will be 2-4 weeks.
NCT00252850
This is a Phase I dose escalating open-label study designed to assess the safety, tolerability and biologic activity of an in vivo AAV2 mediated delivery of the gene encoding NTN (CERE-120). Twelve (up to 18) subjects will receive one of two open-label doses of CERE-120 via bilateral stereotactic injections targeting the putaminal region of the brain. Subjects will be enrolled in one of two cohorts, a low-dose cohort of six subjects followed by a high dose cohort of six subjects. The design of this study is such that the primary objective, the evaluation of safety and tolerability, will be assessed by frequent observations for adverse events, clinical laboratory test results, imaging (MRI), neuropsychometric testing, and evaluations of disease status.
NCT05011773
Treatment of sleep disturbances is mainly attempted through drug administration. However, certain drugs are associated with unwanted side effects or residual effects upon awakening (e.g. sleepiness, ataxia) which can increase the risks of falls and fractures. In addition, there can be systemic consequences of long-term use. An alternative method of manipulating sleep is by stimulating the brain to influence the electroencephalogram (EEG). To date, there have been mixed results from stimulating superficial areas of the brain and, as far as we know, there has been no systematic attempt to influence deep brain activity. Many patients suffering from movement disorders, such as Parkinson's Disease (PD) and Multiple Systems Atrophy (MSA), also have disrupted sleep. Currently, at stages where drug treatment no longer offers adequate control of their motor symptoms, these patients are implanted with a deep brain stimulation system. This involves depth electrodes which deliver constant pulse stimulation to the targeted area. A similar system is used in patients with severe epilepsy, as well as some patients with chronic pain. The aim of this feasibility study is to investigate whether we can improve sleep quality in patients with deep brain stimulators by delivering targeted stimulation patterns during specific stages of sleep. We will only use stimulation frequencies that have been proven to be safe for patients and frequently used for clinical treatment of their disorder. We will examine the structure and quality of sleep as well as how alert patients are when they wake up, while also monitoring physiological markers such as heart rate and blood pressure. Upon awakening, we will ask the patients to provide their subjective opinion of their sleep and complete some simple tests to see how alert they are compared to baseline condition which would be either stimulation at the standard clinical setting or no stimulation. We hope that our study will open new ways of optimising sleep without the use of drugs, in patients who are implanted with depth electrodes. We also believe that our findings will broaden the understanding of how the activity of deep brain areas influences sleep and alertness.
NCT04571112
This study examines the safety and feasibility of DBS in treating the movement and cognitive dysfunction in Parkinson's disease (PD). Globus pallidus interna (GPi) stimulation is an established treatment for the motor symptoms in PD, but it does not treat the cognitive symptoms that can also be seen in this condition. It is theorized that we can improve cognitive dysfunction by stimulating a part of the brain called the nucleus basalis of Meynert (NBM), which releases a chemical (acetylcholine) and plays a role in memory and attention. By using a novel DBS system (Vercise device) with 2 electrodes that are designed to stimulate the GPi and NBM, we can potentially target the motor and cognitive symptoms of PD with a single intervention.
NCT02703844
The purpose of this study is to determine whether caloric vestibular stimulation improves symptoms of Parkinson's Disease.
NCT03088592
The pathology of Parkinson's disease (PD) and the mechanism of Deep Brain Stimulation surgery (DBS) are not completely understood. The recording data that is used routinely as part of the procedure to map the target structures, however, may be analyzed in order to better understand the neural network dynamics in PD. The purpose of the study is to perform simultaneous neural recordings from sub-cortical structures (e.g. subthalamic nucleus \[STN\] or globus pallidus internus \[GPi\]) and the cerebral cortex. These simultaneous recordings may provide insight in the pathology of PD and the mechanism of DBS. The researchers will also study the effects of anesthesia level on neuron synchronization . Recordings with micro-ECoG grid electrodes in the cortex show improved spatial resolution and these will be used to gain better understanding of cortical network dynamics and the synchronization with subcortical structures.
NCT03217396
A prospective and retrospective cohort study of about five years will be performed on blood and cerebrospinal fluid samples taken for diagnostic reasons from recruited patients within the Neuromed Neurology Unit. Subjects with other chronic neurodegenerative diseases such as Amyotrophic lateral sclerosis (ALS), Alzheimer's disease (AD) and Parkinson's disease (PD), and healthy subjects subjected to blood sampling and / or lumbar puncture for clinical reasons will be recruited As control groups.
NCT05579379
20 patients with idiopathic Parkinson's disease, who are planned to undergo intestinal L-Dopa + entacapone (Lecigon®) treatment will be included into this observational single-armed study. These patient will be observed for hyperdopaminergic complications and neuropsychiatric fluctuations postprocedure at 3, 6 and 12 months.
NCT05575479
The primary aim of the study will be to examine Social Cognitive Theory (SCT) correlates, of physical activity (PA) participation and health-related quality of life (HRQoL) in Parkinson's disease participants.
NCT05556993
The purpose of this study is to identify the health and healthcare needs of LGBTQIA+ and non LGBTQIA+ communities living with Parkinson's disease.
NCT04847609
The purpose of this study is to evaluate the rate of occurrence of urethral pain in female patients with neurological vesico-sphincter disorders whilst performing self-catheterization using GentleCath™ Air catheters.
NCT04644367
Parkinson's disease (PD) is associated with changes in gait and posture that can lead to a higher frequency of falls and injuries in this population. Research has shown a positive effect of tai chi (TC) training on the movement capacity for those with PD, however the understanding of the impact of TC training on gait and postural stability in PD is lacking. This study aims to examine the impact of a biomechanical-based TC intervention on dynamic postural stability and how it relates to walking performance. It is hypothesized that the effects of the TC intervention will help to improve measures relating to postural stability, gait, and cognition.
NCT04333511
The aim of this crossover study is to investigate the efficacy of non-invasive brain stimulation (transcranial pulse stimulation; TPS) in adults with Parkinson Disease (PD). Participants will receive 6 sessions of TPS and Sham-TPS, respectively, in random order. Motor manifestations of PD and manual dexterity will be the primary outcome measures. Outcomes will be assessed immediately post-treatment.