207 Clinical Trials for Various Conditions
The AMPLIFI study (Adaptive Modulation of Plasticity through Lactate and Fitness Interventions) investigates how short-term aerobic exercise influences brain plasticity and learning in older adults and stroke survivors. The study compares three groups: one performing aerobic cycling exercise at an intensity that increases lactate levels, one doing low-intensity exercise, and one receiving health education without exercise. All participants will complete motor learning tasks and undergo brain stimulation testing (using transcranial magnetic stimulation, or TMS) to assess how well the brain responds to training. The goal is to understand whether different types of exercise can improve brain function, movement, and memory, and how the body's response to exercise (like lactate levels) might support brain health. This research may help identify low-cost, non-invasive interventions-such as targeted exercise-that improve motor and cognitive outcomes in aging and stroke recovery.
This experimental trial is investigating the use of magnetic stimulation of the brain as a possible treatment for people with post-stroke fatigue. Fatigue is a common condition after a stroke and can negatively impact an individual's ability to perform desired social and physical activities. Magnetic stimulation of the brain has been shown to improve signs and symptoms of related psychological (e.g., depression) conditions. Participants in this trial will receive a type of magnetic stimulation called repetitive magnetic stimulation, or rTMS. The investigators will measure feelings of fatigue, and other clinical characteristics related to mood and cognition, before and after participants receive rTMS.
This study uses a form on non-invasive brain stimulation called transcranial magnetic stimulation to understand 1) understand how the brain learns post-stroke and 2) assess non-invasive brain stimulation as an addition to current stroke rehabilitation approaches. In two study arms the investigators will compare the effect of active transcranial magnetic stimulation paired with motor practice with placebo (or sham) transcranial magnetic stimulation paired with the same motor practice.
Individuals with chronic stroke have long-term walking problems that limit community engagement and quality of life, lead to secondary disabilities, and increase healthcare costs and burden. These walking issues often persist despite rehabilitation. One novel target for stroke gait rehabilitation is interlimb coordination-the phase-dependent cyclical relation of the legs. Interlimb coordination is altered during walking after stroke, compromising walking stability, phase transitions, and responses to perturbation and contributing to motor compensation. It is unclear what neural pathways contribute to impaired interlimb coordination after stroke and what impact this has on walking-related outcomes. This proposal consists of two aims to address these issues, with the long-term goal of developing therapeutic interventions to improve interlimb coordination and walking after stroke. Aim 1 will identify which neural sources contribute to impaired interlimb coordination after stroke. During bilateral, cyclical recumbent stepping (analogue of walking), interlimb coordination will be assessed as relative leg phasing. During the task, transcranial magnetic stimulation and peripheral nerve stimulation will be applied to assess supraspinal, interhemispheric, spinal interneuronal, and sensory pathways. The relation of interlimb coordination with these outcomes will be assessed to determine potential contributors. Aim 2 will test the association between interlimb coordination and walking after stroke. Interlimb coordination will be quantified during split-belt treadmill walking, and associations with walking speed, endurance, mobility, independence, daily activity, quality of life, and community engagement will be tested. An additional exploratory aim will determine the effect of targeted neuromodulation on lower limb interlimb coordination. Electrical stimulation will be applied to three locations in a cross-over study: the primary motor cortex (supraspinal/interhemispheric), thoracolumbar spine (spinal interneuronal), and peripheral nerves (sensory).
The goal of this clinical trial is to learn if a program that combines language and arm treatment can improve language and movement problems in people with chronic stroke. The mains questions it aims to answer are: * To determine the extent to which this combined treatment can improve language. * To determine the extent to which the combined treatment can improve arm movements. Researchers will compare the effects of this combined treatment with treatment that targets arm movements alone.
The study is about using a brain stimulation technique called rTMS (Repetitive Transcranial Magnetic Stimulation) to help improve hand muscles in people who had a stroke. Researchers want to understand how this device can help stroke patients use their hands better.
The goal of this clinical trial is to test a new rehabilitation program, combining acceptance and commitment therapy with strategy training (ST+ACT) to help people resume social participation after stroke and live in the community. Investigators will also compare the changes in social participation and psychological flexibility from baseline to follow-up at one-month after rehabilitation to see if participants who receive ST+ACT report clinically meaningful improvements (Cohen's d=0.2 or greater) compared to ST alone. Participants will: * complete testing to see if they are eligible for the study. If qualified, complete testing to understand how the stroke has affected their daily life * be randomized to receive either ST+ACT or ST alone rehabilitation program for 10 sessions at their home * repeat part of the tests at the end of the intervention and one month after
This research study aims to understand the relationship between brain stimulation and leg skill learning in both healthy adults and persons with chronic stroke.
The aim of this study is to evaluate how vibration of the tendons enhances arm and hand training in survivors of chronic stroke. The investigators hypothesize that wrist/elbow robotic training, combined with body awareness training will improve arm and hand function in individuals with chronic stroke.
The goal of this clinical trial is to see if perturbation-induced step training improves stepping performance during a reactive and voluntary step. The main questions it aims to answer are: Does perturbation induced step training improve step initation time and first recovery step? Researchers will compare lateral perturbation induced step training to lateral voluntary step training to see if the first recovery steps improve. Participants will: Vist the lab for an initial assessment, post exercise and one month post exercise of voluntary and perturbation induced stepping performance, and clinical tests of balance, motor recovery, sensory and strength tests. Exercise 3 times a week for 6 weeks in person Track falls for 6 months after the exercise.
The purpose of this pilot study is to investigate the feasibility of 1) providing virtual reality walking training using a custom developed setup able to be replicated in routine clinical practice and 2) combining the virtual reality training with high-intensity gait training.
The purpose of this study is to capture sensorimotor ankle function in a chronic stroke population through validation of novel, experimental metrics and their comparison with established, clinical measures of function. For this purpose, the researchers will evaluate various single-joint, impairment-level measures such as visuomotor tracking performance and proprioception as well as functional-level measures including spatiotemporal gait (e.g., gait speed and stride length/time) and standardized clinical scales. This study will be carried out in chronic stroke patients as well as age-matched healthy controls. Results will help the researchers identify more quantitative metrics that can be used to monitor and rehabilitate sensorimotor function following stroke.
Primary Objective: To further evaluate the aspects of safety related to PoNS therapy in chronic stroke survivors. Secondary Objectives: To further evaluate the efficacy of PoNS on improving dynamic gait and balance, establishing durability of effect, risk of falling and fall rate. As well as adherence to PoNS device utilization. Exploratory Objectives: To further evaluate quality of life to measure physical, mental, behavioral, and general health, as well as functional decline (\> 30% on gait or balance improvement at endpoint) during the 12-week follow-up.
Stroke is a leading cause of disability with many patients suffering chronic motor function impairments that affect their day-to-day activities. The goal of this proposal is to provide a first assessment of the efficacy of an innovative non-invasive brain stimulation system, kTMP, in the treatment of motor impairment following stroke.
Neurological impairment such as stroke is a leading cause of adult disability. Traditional rehabilitative therapies can help regain motor function and ameliorate disability. There are increasing community and other facilities offering rehabilitation in the form of conventional, recreational and alternative therapy. However, the implementation of these conventional therapy techniques in individuals with a neurological disorder like stroke is tedious, resource-intensive, and costly, often requiring transportation of patients to specialized facilities. Based on recent evidence suggesting significant benefits of repetitive, task-orientated training, investigators propose to evaluate the feasibility of an alternative therapies such as exergaming-based therapy to improve overall physical function of community-dwelling individuals with neurological impairments, compared to conventional therapeutic rehabilitation. This pilot study aims to systematically obtain data on compliance and efficacy of a randomized controlled trial. The objective of the study is to determine the safety, feasibility, compliance and efficacy of exergaming therapy to improve overall physical function of community-dwelling chronic stroke individuals.
This is a single-center randomized control trial assessing the impact of a personalized video-based educational platform on patients satisfaction and stroke knowledge in the context of chronic stroke.
Study objective The purpose of this clinical research is to verify if the patient with chronic stroke can regain the ability of living independently after daily using Testa BioHealing® Biophoton Generators to increase the energy of the brain and other parts of the body. Study design This study is a randomized, triple-blinded, placebo-controlled prospective intervention clinical research. At least 46 patients with chronic stroke will participate in the live-in observational study in a Tesla MedBed Center. Study patient population The adult patient with a chronic stroke which was defined as a stroke occurred at least 6 months ago with a significant disability unable to have an independent life, is to be considered as a qualified participant.
This study wants to know if using handheld dynamometry (HHD) to test leg strength in persons who have had a stroke, will reduce mistakes and give therapists better information to use for therapy. This study will collect normal values of leg muscle peak force production, cumulative peak force production, and sustained peak force production in patients with chronic stroke.
The purpose of this clinical research is to verify if the patients with chronic stroke can regain the ability of living independently after daily using Testa BioHealing® Biophoton Generators to increase the energy of the brain and other parts of the body. The main study questions are: * Can patients with chronic stroke regain life independence by normalizing Activities of Daily Living (ADL). * Can brain-injury and recovery status of the patients with chronic stroke be detected by using an EEG machine. Participants will sleep-rest on a hotel bed energized by Tesla BioHealing Biophoton Generators, and clinical study staff will observe the participant's activities of daily living, as compared to those who will sleep in the hotel room equipped with placebo devices.
This project will examine the feasibility, safety and effect of home-based functional electrical stimulation (FES) applied to different lower limb muscles in combination with task-specific training on gait, balance and mobility in adults with chronic stroke. 30 individuals with chronic stroke will first undergo initial screening and baseline walking, mobility, balance and strength assessments in the laboratory. After determining their eligibility for the study, they will undergo 12-weeks of home-based FES and task-specific training. Following the initial screening (week 1) and pre-intervention assessment (week 2), participants will be trained in the lab for 6 sessions (week 3-4) for a FES home program and then given a FES home kit (FES device and an android tablet). Participants will then undergo home-training for 2 weeks (week 5-6) followed by mid-training assessment (week 7). Again, participants will undergo 4-weeks of home training (week 8-11) and final assessment at the end of training (week 12). This project has the following specific aims: Aim 1: To investigate the feasibility, safety and efficacy of 12-weeks of home-based FES and task-specific training in adults with chronic stroke. Aim 2: To examine the effect of 12-weeks of home-based FES and task-specific training on mobility, gait and balance (anticipatory and reactive balance) in adults with chronic stroke.
The purpose of this study is to investigate if a beetroot juice supplement can improve oxygen capacity during walking tasks at a submaximal and maximal effort in people greater than 6 months following stroke.
The purpose of this study is to Investigate the feasibility of a high-quality, high-dose, high-intensity upper extremity therapy program and to assess the treatment effects of a high-quality, high-dose, high-intensity upper extremity therapy program on functional outcomes, motor impairment, and quality of life
The purpose of the study is to compare assessments of arm function following a standard exercise program in chronic stroke patients.
The proposed study is a two-arm randomized clinical trial designed to assess the effects of the StrokeWear system on clinical outcomes over a period of 6-months in chronic stroke survivors. The Intervention group will use StrokeWear system in combination to a motor and behavioral home intervention whereas the Control group will follow usual care which consists of a home-exercise plan (HEP).
The purpose of our study is to evaluate Vibrotactile Coordinated Reset stimulation (vCR) and its effects on motor ability within stroke patients. vCR will be administered with a device called the Vibrotactile (VT) Brain Glove. vCR is expected to provide patients with a non-invasive therapy to aid in recovery from a stroke. This study will include a dedicated sham arm that will aid in understanding true treatment effects from vCR.
Upper extremity (UE) paresis or weakness is one of the most frequent impairments after stroke. Despite intense rehabilitation, motor and functional recovery of patients with severe hand impairments is poor. Hence, there is a need for more effective treatments to enhance motor function in patients with severe hand impairments after stroke. Adaptive functional electrical stimulation (FES) appears to be a promising treatment and has the potential to facilitate active movement in individuals with severe impairments post-stroke. In addition, transcranial random noise stimulation (trns) is a widely studied, non-invasive and safe method to enhance the corticomotor excitability in individuals with chronic stroke. However, the effect of combining trns and adaptive FES in patients with severe hand impairments has not been investigated. Therefore, the purpose of this study is to investigate whether combining trns with FES will enhance hand function in individuals with chronic stroke than FES alone. The investigators predict that combining trns with FES will significantly enhance hand function than FES alone.
The long-term goal of this project is to develop and test upper Iimb rehabilitation interventions that can improve bimanual motor function, or the ability to use both arms and hands together, for stroke survivors with moderate to severe impairment. This study will utilize a novel method of non-invasive brain stimulation in conjunction with upper limb training given for 12 visits over a period of 6 weeks. The study will include the following site visits: * Eligibility Screening and Informed Consent Visit * Baseline testing (4 visits total): 1 visit each for MRI, upper limb and bimanual motor function test, bimanual motor control, and neurophysiology related to control of the upper limbs * Repeat baseline testing (4 visits total) of MRI, upper limb and bimanual motor function test, bimanual motor control, and neurophysiology related to control of the upper limbs * 12 intervention visits during which patients will receive upper limb therapy in conjunction with non-invasive brain stimulation * Repeat testing (4 visits total) of MRI, upper limb and bimanual motor function test, bimanual motor control, and neurophysiology related to control of the upper limbs * A follow-up visit 1 month after the completion of interventions
The aim of this study is to describe the effect of neuromuscular electrical stimulation (NMES) in the form of functional electrical stimulation (FES) applied to different lower limb muscles on reactive balance and gait performance in stroke participants. Methods: Twenty individuals with chronic stroke will be asked to perform an experimental protocol that includes a postural disturbance in the form of a slip- or trip-like perturbation and a standardized walking test in both laboratory and outdoor environments with and without FES applied to different lower limb muscles of the paretic leg. FES will be applied using an advanced software that is able to synchronize muscle activation with the time of perturbation onset and according to the phases of gait. This project design aims to examine whether a specific pattern of lower limb muscle stimulation could improve the kinematic and behavioral responses during reactive balance following slip- and trip-like perturbations. Additionally, the project aims to see if the kinematic and spatio-temporal gait parameters can be modified during a standardized walking test under different sensory and environmental conditions.
After stroke, people often have difficulty using their hands. Combined brain and nerve stimulation can strengthen the neural pathways that control hand function. In this study, we will deliver combined brain and nerve stimulation during specific time windows that increase activation of neural pathways underlying hand function. We will compare the effects of combined brain and nerve stimulation during these optimal time windows to the effects of combined brain and nerve stimulation applied during random time windows on post-stroke hand function.
The overall goal is to investigate the effectiveness of a novel intervention - Breathing-controlled electrical stimulation (BreEStim) on finger flexor spasticity reduction and hand function improvement in chronic stroke with moderate impairment after a long-term use.