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Showing 1-8 of 8 trials
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.
NCT07443150
The purpose of this study is to evaluate the impact of intensive Body Weight Support Treadmill Training (BWSTT) on the neuroendocrine system and functional recovery in patients during the subacute phase of ischemic stroke. The investigators aim to determine how structured locomotor training influences the concentration of selected neurohormones and how these changes correlate with improvements in gait and balance. Participants undergo a 3-week intensive rehabilitation program, with assessments performed before and after the intervention to identify biomarkers of recovery.
NCT07236216
The present study will use transcranial electrical stimulation (tES) which are transcranial direct current stimulation (tDCS) and transcranial alternating current stimulation (tACS) combined with conventional physical therapy and cognitive-motor dual task gait training in sub-acute (at least 2 weeks after stroke onset) to chronic (within 5 years post-stroke) to investigate the effect on cortical activity, spinal motoneuron excitability, cognition and motor performance. The findings may enhance the evidence to support usages of tES for improvimg cognition, motor performance as well as cortical activity and spinal motoneuron excitability in a clinical setting.
NCT06972355
Objective: The aim of this study is to compare the efficiency of vision-obscured versus vision-retained treadmill gait training in subacute post-stroke patients. Methodology: Thirty-six patients with stroke (ischemic or hemorrhagic) less than six months old will be included and randomized into two parallel groups. The experimental group will undergo treadmill gait training using an opaque mask, combined with body weight reduction (Lite Gait® harness). The control group will follow the same walking protocol, but with their eyes open. Each session will last 20 minutes, integrated into one hour of rehabilitation, at a rate of three sessions per week for six weeks. Assessment will include single- and double-task walking speed, balance parameters and proprioception. Expected results: The hypothesis is that visual deprivation will stimulate the proprioceptive and vestibular systems to a greater extent, resulting in benefits for postural balance, walking and proprioception. The main hypothesis will be the improvement in the difference between single-task and double-task walking speed. Analyses will be conducted on an intention-to-treat basis, using statistical tests adapted to the nature of the variables. Conclusion: This study could highlight the value of temporary visual suppression as a therapeutic lever in stroke rehabilitation.
NCT07002463
This study aims to compare the outcomes of upper limb motor therapy conducted by a physiotherapist with robot-assisted therapy using the Luna EMG device in patients in the subacute phase after stroke. Additionally, the study will examine the correlation between changes in muscle tone and motor function improvement. The randomized controlled trial will be conducted at the Rehabilitation Department of the T. Marciniak Lower Silesian Specialist Hospital in Wrocław, Poland. Two groups (robot-assisted vs. conventional therapy) will perform identical sets of movements with matched repetition counts over a 6-week therapy period. Functional improvement will be assessed using Fugl-Meyer Upper Extremity Assessment (FMA-UE), Box and Block Test (B\&BT), EQ-5D-5L, and MyotonPro measurements.
NCT06686303
Stroke is leading cause of death and disability worldwide, resulting in significant functional limitations and disabilities experienced by stroke survivors, particularly in the upper limb. There is a need for more effective interventions targeting upper limb sensory motor impairments. The aim of this study is to study combined effect of segmental vibrator and neuromuscular electrical stimulation for flexor and extensor muscle groups on upper limb function in sub-acute stroke.
NCT06830707
The aim of this study was to investigate the effects of lower limb constraint induced motor therapy using the robotic rehabilitation device on ambulatory function in chronic stroke patients.
NCT01939041
Robot-assisted training (RT) devices developed to date have a significant impact on stroke rehabilitation. Several research groups have developed the robotic devices and examined their efficacy on improving UL function after stroke. All these robotic devices have been applied in stroke rehabilitation and their efficacy are evaluated, but the scientific evidence for the mechanisms of RT-induced recovery, the relative treatment effects of unilateral vs bilateral robotic trainings, and the impact on physiological responses is still lacking. The primary purposes of this study are to examine (1) the relative immediate treatment effects of unilateral vs bilateral RT on motor impairments/performance and daily functions in patients with subacute stroke; (2) the long-term benefits of unilateral vs bilateral RT by conducting a 6-month follow up evaluation; and (3) the effects of RT on movement reorganization as well as on the physiological markers of inflammation, oxidative stress, erythrocyte deformability, and blood glucose. These overall findings will help better understanding of the efficacy of RT on functional outcomes, movement reorganization, and physiological markers. The investigators would additionally explore the possible differential treatment effects in patients with different levels of motor severity (i.e., moderate vs. severe). The investigators hypothesize that (1) both unilateral (the InMotion3) and bilateral (the Bi-Manu-Track) robot-assisted training would bring larger benefits on motor performance and daily function than the control treatment; (2) such benefits would retain during the follow-up; (3) there would be differential immediate and retention effects of unilateral (the InMotion3) and bilateral (the Bi-Manu-Track) robot-assisted training on different outcome measures; (4) better movement reorganization as well as physiological marker expressions would be found in both robotic groups compared to control group; and (5) there would be differential effects of robotic therapy between participants with moderate vs. severe motor impairment.