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Showing 1-20 of 245 trials
NCT07653256
This study aims to investigate the effects of repeated transcranial magnetic stimulation combined with modified otago exercise program balance training intervention on motor cortex excitability, balance, and gait performance in patients with Parkinson's disease.
NCT06645054
The aim of the study is to examine suitability of data and processed reports acquired from the Smart Hallway system for clinical settings in terms of user acceptability and accuracy for use in clinical practice.
NCT07639411
The aim of this prospective, randomized, single-group interventional study is to use quantitative methods to investigate the acute effects of using lateral-wedge insoles on lower extremity biomechanics, muscle activation patterns, and knee adduction moment during walking and running activities in healthy individuals aged 18-40. The primary research questions it seeks to answer are as follows: * Do lateral wedge insoles cause a significant change in knee adduction moment? * Do lateral wedge insoles change lower extremity biomechanics during walking and running? * Do lateral wedge insoles change the activation patterns of lower extremity muscles during walking and running? To compare the effectiveness of lateral wedge insoles, participants will randomly use insoles with 0 (neutral), 5, and 10-degree angles. Participants will do the following: * Put on the shoes and insoles provided to you in the motion analysis laboratory and complete the walking and running protocols, each taking 1 minute, on the treadmill. * While walking at your normal walking speed, step so that your dominant leg is positioned over the force plate. * Repeat all of this for the insoles at the other two angles.
NCT07624630
Everyday life requires individuals to function in complex environments and perform tasks that involve the integration of motor and cognitive abilities. However, stroke often leads to impairments in motor-cognitive interaction, which can negatively affect mobility, balance, attention, and the ability to live independently. Although motor-cognitive performance has been identified as an important rehabilitation target after stroke, limited knowledge exists regarding the underlying brain function associated with these difficulties and how rehabilitation and exercise interventions can best address them. Improving treatment for motor-cognitive difficulties after stroke, such as dual-task walking and navigation, remains a major challenge. An important step is developing assessment methods that accurately capture these impairments in ecologically valid settings that reflect real-world mobility demands. The investigators therefore aim to explore brain function during complex walking after stroke by investigating motor-cognitive performance and its neural correlates during three walking conditions: dual-task walking, navigation, and a combination of both. Non-invasive measures of brain activity using functional near-infrared spectroscopy (fNIRS) together with advanced real-time gait analysis will be used to better understand how stroke affects motor-cognitive functioning during complex walking tasks.
NCT07152262
This study aims to investigate the effects of different phases of the menstrual cycle on gait spatiotemporal characteristics, pelvic kinematics, and sleep quality in healthy women aged 18-35 years with regular menstrual cycles. Participants will be assessed in three phases of the cycle: early follicular (days 1-3), ovulation (days 7-9, confirmed by ovulation test), and luteal (days 20-23). Gait parameters and pelvic kinematics will be evaluated using the BTS-G walk sensor system, while sleep quality will be assessed with the Pittsburgh Sleep Quality Index (PSQI). The study seeks to determine whether physiological and hormonal changes during menstrual phases lead to measurable differences in gait, pelvic motion, and sleep quality.
NCT07586553
This observational study aims to investigate the validity and reliability of the Figure-of-8 Walk Test (8FWT) in individuals with Motoric Cognitive Risk Syndrome (MCRS). The study will evaluate test-retest reliability, measurement error (SEM, MDC), and construct validity by examining the relationship between 8FWT performance and functional mobility measures. The findings are expected to provide evidence for the clinical applicability of 8FWT in assessing dynamic balance, gait performance, and cognitive-motor interaction in older adults.
NCT05886725
This is a prospective observational study looking at gait-cadence in older adults who are scheduled to have major abdominal surgery at the University of Chicago. The objective of the study is to evaluate whether gait-cadence, as measured from a patient's mobile device at-home, can provide an accurate assessment of a patient's functional status prior to major abdominal surgery and identify patients at risk of poor functional outcomes.
NCT07529054
Robotic-assisted gait training (RAGT) devices, such as the Lokomat®, are commonly used to support gait rehabilitation by enabling repetitive, task-specific walking movements. The functional proprioceptive stimulation (FPS) device Vibramoov® represents a novel technology designed to stimulate proprioceptors at the muscle-tendon junction through targeted vibratory stimuli, thereby activating sensorimotor centers in the brain and potentially facilitating movement execution. The aim of this randomized controlled trial is to investigate whether Lokomat® training combined with Vibramoov® leads to greater improvements in qualitative and quantitative gait parameters in stroke patients compared with Lokomat® training alone. The study will be conducted at the Gröbming Rehabilitation Center and will include patients undergoing a four-week neurological inpatient rehabilitation program. Participants will be randomly assigned to an intervention group (Lokomat® + Vibramoov®) or a control group (Lokomat® only), with 20 patients per group. Primary outcomes include the 6-Minute Walk Test (6MWT) and spatiotemporal gait parameters. Additional assessments include functional scores, patient-reported outcome measures, and blood biomarkers. Statistical analyses will be performed depending on data distribution. A follow-up assessment evaluating EQ-5D and PHQ-4 will be conducted six months after completion of the rehabilitation program.
NCT07514104
This randomized controlled trial aimed to investigate the efficacy of Extracorporeal Shock Wave Therapy (ESWT) on plantar somatosensory function, knee joint proprioception, and spatiotemporal gait parameters in individuals diagnosed with Multiple Sclerosis (MS). The study included participants with a spasticity level below 1+, with the intervention group receiving ESWT three times per week over a 6-week period. To evaluate sensory changes, light touch thresholds were measured at six plantar sites-the heel, medial longitudinal arch, 1st and 5th metatarsal heads, and the 1st and 5th toes-using the Semmes-Weinstein monofilament kit. Additionally, two-point discrimination was assessed at the heel, and vibration duration was measured at the metatarsal heads using a 128 Hz tuning fork. Proprioception was quantified via the active knee joint reposition test in a closed kinetic chain position, measuring the absolute angular error at a 60° target angle. Postural stability and dynamic gait were objectively analyzed using the Win-Track platform and a reliable 3-step protocol to record parameters such as gait cycle duration, step length, cadence, and maximum plantar pressure. Static balance was further evaluated by recording the percentage of body weight transferred to each foot. By targeting both mechanoreceptor sensitivity and joint position sense, this 6-week ESWT intervention seeks to enhance the overall functional mobility and stability of MS patients.
NCT07087743
This study evaluates a novel Virtual Reality (VR)-integrated visual feedback system designed to enhance limb propulsion during robot-assisted gait rehabilitation in individuals post-stroke. In collaboration with CUREXO, a rehabilitation robotics company, the system is embedded within the Morning Walk® end-effector robot and provides real-time visual feedback to facilitate symmetrical use of the paretic and non-paretic limbs. The goal is to address gait asymmetry commonly observed in hemiparetic stroke survivors by promoting improved paretic leg propulsion, which is a key contributor to forward movement during walking. A total of 30 participants (15 stroke, 15 healthy controls) aged 20 years or older will undergo single-session gait training using the VR-robot system. Participants will be assessed using spatiotemporal gait parameters, muscle activity, foot pressure, and vertical ground reaction forces. Additional safety measures-including a saddle-type weight support and real-time heart rate monitoring via smartwatch-are implemented to ensure a safe and controlled training environment. This study aims to test the feasibility and effectiveness of this VR-based system in improving gait symmetry and functional walking capacity in people recovering from stroke.
NCT07212257
Brief Summary This prospective, monocentric national study aims to establish normative reference data for the Ker-EGI (Kerpape Gait Index), a novel gait quantification index based on muscle activation profiles of the lower limbs in children. The objective is to determine both the mean activation profile and its variability in a healthy pediatric population. Participants are healthy children and adolescents, aged 3 to 15 years, recruited outside of the Kerpape Rehabilitation Center and specifically attending the Kerpape gait laboratory for this study. A total of 120 subjects are expected. Each participant and their parent(s)/legal guardian provide informed consent prior to enrollment. Study Procedure: Each child is accompanied by at least one parent and participates in a single session lasting approximately one hour. After skin preparation (shaving if necessary and cleaning with alcohol), 28 surface electrodes (ECG type) are placed bilaterally on seven lower limb muscles (tibialis anterior, soleus, gastrocnemius medialis, rectus femoris, vastus medialis, semitendinosus, and gluteus medius). Anatomical landmarks are marked with a dermographic pencil. For younger children, a doll is used to facilitate explanation of electrode placement. The gait analysis is performed with the child in underwear from the time of electrode placement. Each participant completes 10 walking trials (five round trips of 10 meters) at self-selected comfortable speed, following demonstration or a test trial if necessary. Gait is recorded using synchronized cameras and video recordings are anonymized daily. Data Collection: Collected data include participant demographics (name, age, sex, height, weight, leg length), electrode signals, and video recordings. Following the session, electrodes are removed, and children are invited to get dressed. Constraints and Risks: The study involves a minimal deviation from routine conditions: a single one-hour session including electrode placement, walking assessment, and filming. No invasive procedures or therapeutic interventions are conducted. Sample Size: 120 healthy children and adolescents, aged 3 to 15 years.
NCT07213232
The aim of the study is to examine the effects of a structured, cognitive dimension-specific cognitive training combined with dual-task balance and gait training on balance, gait, and cognition in individuals with Parkinson's disease.
NCT07469163
After experiencing a stroke, many individuals encounter difficulties with walking and balance, which can significantly impact their independence. Recent studies have indicated that split-belt treadmill (SBT) training is effective for improving gait metrics, including walking speed and step length asymmetry. The SBT allows each leg to move at different speeds, which has been shown to help chronic stroke survivors learn to walk more symmetrically. However, there is limited knowledge about the dose participants should receive and the safety of SBT training in the early stages of recovery, which is a crucial period for rehabilitation. To address this gap, we are evaluating an innovative SBT with virtual reality (VR) features at the Foothills Medical Center. Our objective is to conduct a study to determine the amount of SBT training patients can tolerate in a day. In this study, stroke survivors will engage in a series of walking exercises on the SBT. We will escalate the duration of SBT walking until participants reach a point where they can no longer continue due to dose-limiting criteria such as fatigue or discomfort. The findings from this initial phase will guide future larger trials to explore the effectiveness of this training method. Ultimately, we aspire to improve rehabilitation strategies for stroke survivors, assisting them in regaining mobility and enhancing their quality of life more effectively.
NCT07250425
This pilot, parallel-group randomized controlled trial will evaluate the feasibility, safety, usability, and preliminary efficacy of the Rise\&Walk InHome (RWH), a novel robotic gait training device designed for home use after stroke. Twenty adults with lower-extremity motor impairment following a first-ever stroke (3 months to 5 years post-event) will be randomized 1:1 to either (1) RWH-assisted home walking plus usual care or (2) usual care alone for 12 weeks. Participants in the intervention group will receive an in-home RWH device, complete a structured device training program, and be instructed to perform 30-minute RWH walking sessions four times per week (48 sessions total). All participants will undergo standardized outcome assessments at baseline, weeks 4, 8, and 12, including the 6-Minute Walk Test (primary outcome), 10-Meter Walk Test, daily step count via wearable activity tracker, and health-related quality of life (SF-36). Additional feasibility and usability outcomes include device use and adherence, patient satisfaction and motivation, ease of use, perceived exertion, and adverse events. Findings will inform the feasibility of in-home deployment of the RWH device and provide preliminary effect-size estimates to guide the design of a larger efficacy trial.
NCT07375745
Spinal cord injury (SCI) often results in partial or complete loss of movement. In the subacute phase (\< 6 months), the central nervous system shows increased potential for neuroplasticity, making it more responsive to rehabilitation and external stimulation. Standard care in rehabilitation centers relies on activity-based therapy (ABT), which uses intensive, task-specific training to promote recovery. Although ABT can improve mobility, its effects are often limited due to the nature of SCI and the indirect activation of neural circuits. Recent findings suggest that adding transcutaneous spinal cord stimulation (tSCS) to ABT in chronic SCI (\> 12 months) can enhance lower-limb motor recovery. This study will evaluate whether combining tSCS with gait training is safe and feasible in individuals with subacute SCI and whether it improves lower-limb motor outcomes compared with gait training alone. The investigators hypothesize that pairing gait training with tSCS early after injury will be safe and feasible and that tSCS delivered during gait training will augment leg muscle activation and lead to greater functional improvements. The study will also assess the feasibility, safety and tolerability of implementing this combined intervention in a intensive functional rehabilitation setting.
NCT05938673
Gait changes appear and become the main cause of disability, loss of independence, falls, fractures and reduced quality of life for patients with Parkinson Disease. Optimal gait management is complex and challenging. Some characteristics, such as gait variability, postural instability, and postural changes, continue to worsen over time despite optimal dopaminergic treatment, suggesting that additional interventions are needed. Given the physiology of gait and postural control in humans, spinal cord stimulation is a potential target for neuromodulatory approaches to gait and postural disorders. Repetitive transspinal magnetic stimulation ( rTSMS) has attracted a lot of attention, due to the possibility of modulating motor and sensory networks in a non-invasive way, activating directly the dorsal ascending pathways and projecting to the thalamic nuclei, cerebral cortex, and brainstem nuclei, thus stimulating descending motor tracts and interrupting aberrant oscillatory activity in corticobasal nuclei circuits. The combination of non-invasive neuromodulation with other therapies can enhance the effectiveness of rehabilitation, increasing plasticity and clinical efficacy, offering a greater and more sustained effect than either therapy alone.It's recommended that patients with PD perform a specific exercise for walking, such as treadmill training (tt), that imposes an external rhythm and concentration of attention on gait, acting as an external cue or marker, promoting a more stable gait, reducing gait variability and decreasing risk of falls. It is proposed, in this study, to develop a new treatment model through the integration of two promising and complementary approaches to improve gait disorders in PD: rTSMS and tt. Thus, the investigators idealized the realization of the first randomized, double-blind, placebo-controlled, parallel, phase III clinical trial that will evaluate the efficacy of tt associated with rTSMS in patients with PD.
NCT07440459
The goal of this observational study is to assess the course of motor and functional gait recovery induced by Lokomat robot-assisted gait rehabilitation in patients with spinal cord injury. The main question it aims to answer is: How does gait motor and functional multilevel recovery progress over time in patients with spinal cord injury? Assessmets will be conducted at four time points: pre-intervention, mid-intervention, post-intervention, and at 1-month follow-up after the completion of robot-assisted gait rehabilitation. Data will be collected at multiple levels, including: * Clinical tests * Three-dimensional gait analysis with kinematic, kinetic, and electromyographic measurements * Maximum isometric strength * Nerve conduction parameters
NCT07316296
The goal of this clinical trial is to learn if the medication atomoxetine can reduce freezing of gait in people with Parkinson's disease. The main questions it aims to answer is: Does atomoxetine reduce the frequency or severity of freezing of gait? What role does noradrenaline play in freezing of gait? Researchers will compare atomoxetine to a placebo to see if atomoxetine can improve freezing of gait in people with Parkinson's disease. Participants will: Visit the study site for measurements Take atomoxetine or placebo Perform walking assessments and undergo MRI Complete questionnaires about anxiety, stress, and quality of life
NCT05292794
A Multi-Center, Controlled Study to Evaluate Use of CereGate Therapy to Reduce Freezing of Gait in Participants Diagnosed with Parkinson's Disease.
NCT07358338
The goal of this clinical trial is to improve comprehensive rehabilitation programs for elderly patients with chronic cerebral ischemia by incorporating training methods with biofeedback for postural control training. The main objectives of the study are as follows: To evaluate the effectiveness of incorporating stabilometric training with biofeedback using the Huber system (LPG Systems, France) and treadmill-based biofeedback training using the C-Mill system (Physiomed Elektromedizin AG, Germany) into comprehensive rehabilitation programs, with respect to postural and cognitive functions in elderly patients with chronic cerebral ischemia. To conduct a comparative analysis of the effectiveness of training programs performed using the Huber (LPG Systems, France) and C-Mill (Physiomed Elektromedizin AG, Germany) biofeedback systems, based on outcomes related to gait pattern recovery, postural parameters, and cognitive performance. The investigators will compare training sessions using the Huber and C-Mill biofeedback systems with a control group (patients receiving conventional therapeutic exercise) in order to determine whether these devices are effective in improving postural control and reducing the risk of falls in patients with chronic cerebral ischemia. Participants are required to: Complete a course consisting of 8 procedures, performed once daily. Report any adverse events occurring during or after the procedures, should they arise.