163 Clinical Trials for Parkinson's disease
The study aims to evaluate the burden of tau pathology in people with Sporadic and LRRK2 PD via in vivo imaging using the tau tracer, \[18F\]PI-2620, and a high resolution PET camera, NeuroEXPLORER.
The goal of this clinical trial is to learn whether a personalized brain stimulation method called repetitive transcranial magnetic stimulation (rTMS), combined with walking exercises, is a practical and tolerable approach to help people with Parkinson's disease who experience freezing of gait (FOG). FOG is a disabling symptom where people temporarily feel stuck and unable to start walking, even though they want to move. The main questions this study aims to answer are: Can people with Parkinson's disease and FOG tolerate this combined rTMS and walking training procedure? Can researchers successfully enroll and retain participants for this multi-visit intervention? Does the combination of rTMS and gait training show early signs of improving gait and reducing freezing episodes? This study does not include a comparison or placebo group. All participants will receive the same intervention. Participants will: Attend up to 15 study visits over about 16 weeks, with the option to combine visits to reduce burden. Complete brain imaging (MRI) before and after the intervention to guide and evaluate treatment. Receive a form of brain stimulation (rTMS) using a safe, non-invasive coil placed over a specific part of the brain called the supplementary motor area (SMA). The target is personalized using each person's MRI data. Participate in walking exercises that include cognitive tasks (dual-task gait training) after each set of brain stimulation sessions. Undergo assessments of walking ability, Parkinson's disease symptoms, and brain response to stimulation. Be videotaped during walking tasks to assess gait changes, while wearing small motion sensors on the body. Complete questionnaires about symptoms, safety, and tolerability. This study is being conducted at the Medical University of South Carolina (MUSC) and includes up to 15 adults between the ages of 50 and 80 who have been diagnosed with Parkinson's disease and experience FOG. Although rTMS is already FDA-cleared for depression and other conditions, it has not been approved for freezing of gait, and its use in this study is considered investigational. The stimulation device used has been determined to be non-significant risk (NSR) by the FDA. The study does not offer direct medical benefit to participants, but results from this trial may help researchers develop future treatments and better understand how brain stimulation affects walking difficulties in Parkinson's disease. Participation is voluntary, and individuals can withdraw from the study at any time without affecting their medical care
A study to determine if BHV-8000 is efficacious, safe and tolerable in adults diagnosed with early Parkinson's disease.
Study BRT-DA01-301 is a Phase 3 multicenter, randomized, sham surgery-controlled, double-blind study to assess efficacy and safety of bemdaneprocel in approximately 102 adults with Parkinson's Disease (PD).
The study looks to investigate the effects that light therapy delivered to the frontal cortex could have on Parkinson's disease related symptoms ( both cognitive and motor). The therapy is a non invasive technique that deliverers low level wavelength light to the front part of the head for 12 minutes. for this study the therapy will be done 3 times a week for 6 weeks. To measure the potential effects on the therapy in Parkinson symptoms, we will do a set of cognitive and motor test before and after the intervention to measure any changes as well as control for any potential markers such as age, sex, disease level, medication and exercise.
People with Parkinson's disease often experience problems with 'gait' and balance. Gait refers to the way a person moves while walking, such as their speed and length of steps. People with Parkinson's may experience slowness of movement, shuffle their feet, or have periods of 'freezing', during which their feet feel like they are stuck to the floor. Some people may struggle to maintain their balance and fall. These symptoms are frequently disabling and can lead to a worse quality of life. The nervous system is your body's messaging system - it helps different parts of your body communicate with one another. Neurotransmitters are chemicals that deliver those messages from one part of the body to another. The purpose of this study is to determine if the use of ARICEPT (Donepezil hydrochloride) improves gait and balance and its relation to the size of an area of the brain called "Cholinergic Nucleus 4" (Ch4). The study team is also studying how degeneration (breakdown and eventual loss) in Ch4 contributes to problems with gait and balance. One way this may happen is through the loss of a chemical in the brain called acetylcholine. Acetylcholine is a neurotransmitter and its activity is associated with alertness, thinking, and the ability to move. Taking a drug that increases acetylcholine, such as ARICEPT, may improve gait and balance. By better understanding this relationship, we may be able to improve the treatment of gait and balance problems in the future.
This study will investigate the feasibility of a 6-month community walking program for people with Parkinson's disease (PD) and their care partners in greater Saint Louis, Missouri region. The walking program will consist of weekly, organized walking groups at the Missouri Botanical Gardens. Participants in the program will use Nordic walking poles during the walks. The walking group(s) will meet once per week and will be supervised by walking group leaders from Saint Louis University. Participants will be given a smart watch to wear that will help step counts will be tracked in real-time. The program is designed to get people with Parkinson's disease out of their homes, cultivate a culture of connection with others with Parkinson's disease, and to be collectively accountable for a common goal toward increasing their physical and social engagement in their communities.
This trial is a randomized, double-blind, placebo-controlled Phase 1b study evaluating the safety/tolerability, PK, and pharmacodynamics of VENT 02, administered orally at 1 dose level twice daily (BID) over 28 days in patients with mild to moderate Parkinson's disease. The study includes a screening period, a 28-day double-blind treatment period, and a 7-day follow-up period after last dose. Approximately 30 patients will be randomized into 1 of the 2 treatment arms.
Listener training offers a promising avenue for improving communication for people with dysarthria due to Parkinson's disease by offsetting the intelligibility burden from the patient onto their primary communication partners. Here, we employ a repeated-measures, randomized controlled trial to establish the efficacy of listener training for patients with PD and their primary communication partners. This translational work will establish a new realm of clinical practice in which the intelligibility impairments in PD are addressed by training partners to better understand dysarthric speech, thus elevating communication outcomes and participation in daily life.
The purpose of this study is to generate evidence of the safety, tolerability, and pharmacokinetics/pharmacodynamics of IV LY4006896 compared with placebo in healthy participants and participants with Parkinson's disease.
The goal of this clinical trial is to learn whether home-based transcranial direct current stimulation (tDCS) is safe and practical for people aged 40 to 70 years with Parkinson's Disease. The study aims to find out if participants can use the tDCS device at home without serious side effects and whether it is easy for them to use on their own. Participants will first attend an in-person visit to learn how to use the tDCS device. They will then use the device at home once a day for 20 minutes over seven consecutive days. Video calls on days 2 and 3 will provide support and supervision. After each session, participants will complete brief online questionnaires about any side effects and how easy the device was to use. The study will also check if using tDCS at home improves motor symptoms in Parkinson's Disease by using a standard movement assessment.
This study explores the use of multifunctional, non-invasive spinal cord transcutaneous stimulation (scTS) to address axial motor symptoms, particularly gait dysfunction, in Parkinson's disease (PD). These symptoms, resistant to levodopa and inadequately managed by deep brain stimulation (DBS), arise from maladaptive spinal network changes. A non-invasive approach like scTS could overcome limitations associated with invasive spinal cord stimulation (SCS), which requires surgical implantation and lacks adaptability in stimulation site adjustments. Gait dysfunction in PD stems from disrupted interactions between spinal and supraspinal networks. scTS provides a non-invasive alternative, shown to enhance locomotor functions in conditions such as spinal cord injury, stroke, and cerebral palsy. This study hypothesizes that scTS applied at multiple spinal levels-cervical (C3-C4), thoracic (T11-T12), and lumbar (L1, L2-L3)-can synergistically activate locomotor central pattern generators (CPGs) and improve gait and postural control in PD. Additionally, it is hypothesized that proprioceptive input, combined with scTS, can counteract disruptions in spinal networks and restore voluntary movement. The primary goal is to evaluate the effects of scTS on stepping performance, postural control, and locomotor recovery in PD. Specific objectives include: 1. Enhancing Locomotor Networks * Determine optimal scTS parameters for inducing rhythmic stepping in PD patients. * Assess interactions between spinal and supraspinal networks during imagined stepping under scTS in a gravity-neutral setting. 2. Improving Postural Networks o Evaluate the effectiveness of scTS in restoring postural control and integrating postural-locomotor functions. 3. Facilitating Neuroplasticity for Movement Recovery o Combine scTS with activity-based recovery training to promote adaptive plasticity in spinal and cortical networks, reducing freezing of gait (FOG). The research will measure scTS's capacity to generate coordinated stepping and postural movements, integrate proprioceptive feedback, and induce long-term improvements in gait parameters. By targeting spinal locomotor and postural systems, scTS offers a novel, non-invasive approach to addressing gaps in the management of PD gait dysfunction. This work has the potential to significantly enhance the quality of life for individuals with PD, providing a safe, adaptable, and patient-centered therapeutic solution.
This project will focus on improving power in adults with Parkinson's disease, since power is related to performance of daily activities and memory and decision making. The study will compare traditional power training, where the participant does all exercises as fast as possible to top set resistance training, where the participant does power training, but it is preceded by warm-up sets that progress in weight until the participant reaches 90% of the person's maximum strength. If the top set method is better than traditional power training, it could be more beneficial than existing methods in improving independence in adults with Parkinson's disease.
The primary objectives of this study are to assess the efficacy of TB006 in improving motor function and to assess the safety of TB006 in participants with Parkinson's Disease (PD).
This is a research study investigating elevated homocysteine in the blood of patients with Parkinson's disease who are currently receiving treatment with levodopa. We are evaluating if elevated homocysteine can be corrected using open label B vitamin therapy, as well as the impact of homocysteine levels on cognitive function.
The primary purpose of this study is to evaluate efficacy and safety of CREXONT under real world conditions in participants with Parkinson disease (PD).
The goal of this clinical trial is to learn if bezisterim can treat movement symptoms of Parkinson's disease in patients that are 45 to 80 years old, in generally good physical and mental health, and are nearing the need for treatment to relieve their symptoms but have not yet been prescribed any form of levodopa or drug with similar activity. The main questions it aims to answer are: * Will bezisterim decrease movement symptoms of Parkinson's disease? * What medical problems do participants have when taking bezisterim? Researchers will compare the effects of bezisterim treatment to placebo (a look-alike substance that contains no drug) to see if bezisterim works to treat movement symptoms of Parkinson's disease. Participants will * have a physical examination that includes an electrocardiogram * take drug or placebo twice daily for four months * visit a clinical site or receive an at home visit seven times over the course of five months
The Goal of this study is to evaluate the safety, tolerability, and clinical responses following implantation of DSP-1083. Study enrolls both male and female patients in 2 cohorts.This study will be held in approximately 5-6 study sites in North America
BLAAC PD is a research study to understand what Parkinson's disease looks like for Black and African American communities. BLAAC PD is happening at research centers around the United States. The study is part of the Global Parkinson's Genetics Program (GP2). GP2 is a research project working to transform understanding of the genetics of Parkinson's disease and make that knowledge globally relevant.
When a patient gets DBS surgery, the neurosurgeon makes a hole in the skull through which they can put the DBS lead down in deep parts of the brain that help control movement. For this study, research participants will also have an ECoG strip put through the same hole (no extra holes are being made for research purposes). The ECoG strip is a little less than half an inch wide, and a little more than 2.5 inches long. It is very, very thin; it is a thin plastic film with flat metal sensors that can record the electrical activity in the brain. The ECoG strips are FDA approved. The neurosurgeon will slide the ECoG strip under the skull but on top of the brain, over another area of the brain that helps control hand/arm movement (motor cortex), so that the study team can record the activity there. The study team will record brain activity from the DBS lead and the ECoG strip simultaneously to try to understand how the brain communicates and sends information. The study team will check that the ECoG strip is in the right place by delivering a very small electrical pulse to the wrist. If the ECoG strip is in the correct location, this electrical pulse will show up on the brain activity being recorded by the sensors in the ECoG strip. Fluoroscopy (i.e. X-ray images that can be taken quickly) will also be done at the end of the surgery to help confirm the location of the ECoG strip. During fluoroscopy, an X-ray beam is used to track a contrast agent ("X-ray dye") through the body, so that the body can be seen in detail. This involves some radiation exposure for the participant, so this is described in the consent form. Patients who want to sign up for the study will not be allowed to do so if they have had other radiation exposures within the past year that would go over a safe limit when added to the amount of radiation expected from the fluoroscopy for this study.
The goal of this clinical trial is to assess the safety and tolerability of the surgical transplantation of dopaminergic progenitor cells into the brains of participants with Parkinson's disease. The transplanted dopaminergic cells will be derived from the participant's own skin cells.
The goal of this Phase 2 clinical trial is to investigate the efficacy and safety of NEU-411 in men and women aged 50-80 years with early Parkinson's Disease (PD) who have predicted elevations in the activity of the "leucine-rich repeat kinase 2" ("LRRK2" for short) pathway based on their genetic profile. A DNA test will be used to identify the "LRRK2-driven" population with predicted elevation in the LRRK2 pathway. Participants will: • Take NEU-411 or placebo every day for 52 weeks
The investigators are studying if Transcranial Pulse Stimulation (TPS) can improve various symptoms, including movement problems, thinking abilities, mood, fatigue, freezing while walking, voice quality, and issues with smell and taste. Previous research suggests TPS might help in Alzheimer's disease and could be helpful for Parkinson's as well. Investigators will check if TPS is safe, practical, and if it makes a noticeable difference in these symptoms compared to before the treatment.
This study aims to assess the levels of phosphorylated alpha-synuclein (P-SYN) in patients with Parkinson's disease and REM Behavior Disorder using a minimally invasive skin punch biopsy. It seeks to understand the natural progression of P-SYN deposition over time to explore the potential of P-SYN quantification as a biomarker for disease progression.
The objective of this research is to use advanced connectomic imaging models to identify disease-relevant axonal pathway targets for better tremor control in Parkinson's disease patients while avoiding undesirable side effects, with the goal of increasing precision and facilitating the choice of optimal DBS parameters for certain disease phenotypes. The investigators hypothesize that patient centered subthalamic nucleus deep brain stimulation of cerebellothalamic axonal pathways and pallidothalamic tract activation can provide better tremor control while avoiding worsening dyskinesias in patients with Parkinson's disease with significant tremor.
The 10,000 Step Club (10KSTC) is a 6-month community walking program for people with Parkinson's disease (PwP) and their caregivers in Las Vegas, Nevada (LV). This program will consist of several weekly, organized walking groups in local parks throughout the LV Valley. Participants in the program will use Nordic walking poles during the walks. Each walking group will meet once per week at a local park and will be supervised by walking group leaders from the University of Nevada, Las Vegas. There will be three walking programs throughout the Las Vegas valley. Participants will be given a step watch to wear step counts will be tracked in real-time. The program is designed to get PwP out of their homes, cultivate a culture of connection with others with Parkinson's disease (PD), and to be collectively accountable for a common goal toward 10,000 steps per day.
This Phase 2a, multicenter, randomized, 12-week double-blind, placebo-controlled, parallel-group study, followed by an OLE, is designed to evaluate the safety, tolerability, and pharmacodynamic effects of BIIB122 in participants with LRRK2-PD. LRRK2-PD is defined as Parkinson's Disease (PD) in individuals who are heterozygous or homozygous carriers of a pathogenic LRRK2 variant that increases LRRK2 kinase activity.
The goal of this feasibility study and clinical trial is to learn if an evidenced-based breathwork and meditation intervention (SKY Breath) will improve the mental and physical well-being of individuals with Parkinson's Disease (iPD) in stages 1, 2, and 3, under the age of 75 and their care partners. The main questions it aims to answer are: * Objective 1: Can the SKY Breath practice be designed and implemented to specifically cater to the unique needs of individuals with Parkinson's Disease and their care partners. * Objective 2: Will the SKY Breath practice decrease stress levels (a contributor to increasing PD symptoms) for individuals with Parkinson\'s Disease (iPD) and their care partners as measured through self-reported surveys to improve overall well-being and quality of life. * Objective 3: Will the SKY Breath practice in part alleviate the emotional stress and physical burden experienced by care partners of PD patients, promoting their resilience and well-being. Participants will be asked to learn the SKY Breath and Meditation practice over the course of 4 days (2.25 hours each morning), practice SKY every day for 4 weeks and keep a log of time spent doing SKY. The participants will complete a series of surveys before learning the practice and then after at weeks 1, 4 and 8. The series of surveys will take about 20 minutes.
The goal of this observational study is to learn about the usefulness of automated analysis of speech, physical activity measures tracked using wearable devices at home, and tremor detection measured using computer-vision analysis of smartphone video to detect impairments related to Parkinson's disease and improve prediction of one-year progression. Participants will attend a short research visit at the University of Iowa. During this visit, they will make a video recording using a smartphone of them performing a fine motor task and audio recordings of pre-written text. They will be provided with an activity tracker and asked to wear it at home for four weeks. After four weeks, a video visit will be conducted and the speech and video tasks will be repeated.
The purpose of this study is to evaluate the safety, tolerability, and PK/PD of LY3962681 in healthy volunteers and patients with Parkinson's disease. The study will be comprised of two parts, the Single Ascending Dose (SAD) study and the Multiple Ascending Doses (MAD) study. During the SAD portion of the study, healthy volunteers will receive a single dose of LY3962681 or placebo (artificial cerebrospinal fluid (aCSF), no active drug) given into the spinal fluid. During the MAD portion of the study, patients with Parkinson's disease will receive two doses of either LY3962681 or placebo (aCSF) administered into the spinal fluid. * The treatment period in the SAD study will be 1 day. The treatment period in the MAD study will be 2 days, 12 to 24 weeks apart. * The follow-up period in the SAD study will be up to 52 weeks. The follow-up period in the MAD study will be up to 52 weeks post Dose 2.