Stroke Clinical Trial
Official title:
Effects of Soft Robotic Exosuit on Exercise Capacity, Biomakers of Neuroplasticity, and Motor Learning After Stroke
High intensity exercise is known to improve a person's ability to learn new motor skills. The goal of this project is to evaluate if a robotic exosuit can help people who have had a stroke perform walking rehabilitation at higher intensities than they are able to without the exosuit. The investigators will measure exercise training intensity, biomarkers of neuroplasticity (e.g., brain-derived neurotrophic factor; BDNF), and motor learning when people poststroke exercise with and without the exosuit. For this protocol, exosuits developed in collaboration with ReWalk⢠Robotics will be used. Aim 1: Determine the effects of a soft robotic exosuit on gait training intensity and serum BDNF in persons post-stroke completing a single bout of high intensity walking. Hypothesis 1: Exosuits will allow individuals post-stroke to (i) walk at higher intensities or (ii) walk at a high intensity for longer durations. Hypothesis 2: Training at a higher intensity, or training at high intensity for longer durations, will result in increased serum BDNF. Aim 2: Determine the effects of a soft robotic exosuit on gait biomechanics measured after a single bout of high intensity walking with versus without a soft robotic exosuit. Hypothesis 3: A single bout of high intensity walking with an exosuit will lead to demonstrably better gait biomechanics than a single bout of high intensity exercise without an exosuit.
Prior studies of the exosuit technology have culminated in strong evidence for the gait-restorative effects of soft robotic exosuits for patients post-stroke by means of substitution for impaired paretic limb function during walking. The present study builds on this work by suggesting that an exosuit's immediate gait-restorative effects can be leveraged during high intensity gait training to produce post-training improvements in gait quality. Indeed, current rehabilitation efforts are focused on either quality or intensity. They focus on gait quality by reducing the training intensity to allow patients to achieve a more normal gait. In contrast, efforts focused on training intensity push participants without regard for the quality of their movements. The investigators posit that exosuits can uniquely enable high intensity gait training that promotes quality of movements. Acute bouts of high intensity exercise prior to skilled task practice have been shown to enhance motor learning in neurologically intact individuals. However, the impact of high intensity exercise on motor learning in clinical populations remains largely unknown. A major limitation to studying this relationship in survivors of stroke are challenges in achieving and maintaining high intensity exercise levels (>75% max HR) during gait training for durations that are comparable to neurologically intact individuals. Exercising at a lower intensity or for a shorter duration may result in insufficient neurological "priming" for motor learning that typically follows high intensity training-which would be evidenced in reduced production of activity-dependent markers of neuroplasticity (e.g., brain-derived neurotrophic factor; BDNF). For this study, the investigators will use standardized, maximal effort tests to evaluate the ability of a soft robotic exosuit to increase a patient's capacity for high intensity gait training. The investigators will also examine the resulting effect on BDNF and the relationship between training intensity, BDNF and motor learning measures. ;
| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Recruiting |
NCT04043052 -
Mobile Technologies and Post-stroke Depression
|
N/A | |
| Recruiting |
NCT03869138 -
Alternative Therapies for Improving Physical Function in Individuals With Stroke
|
N/A | |
| Completed |
NCT04034069 -
Effects of Priming Intermittent Theta Burst Stimulation on Upper Limb Motor Recovery After Stroke: A Randomized Controlled Trial
|
N/A | |
| Completed |
NCT04101695 -
Hemodynamic Response of Anodal Transcranial Direct Current Stimulation Over the Cerebellar Hemisphere in Healthy Subjects
|
N/A | |
| Terminated |
NCT03052712 -
Validation and Standardization of a Battery Evaluation of the Socio-emotional Functions in Various Neurological Pathologies
|
N/A | |
| Completed |
NCT00391378 -
Cerebral Lesions and Outcome After Cardiac Surgery (CLOCS)
|
N/A | |
| Recruiting |
NCT06204744 -
Home-based Arm and Hand Exercise Program for Stroke: A Multisite Trial
|
N/A | |
| Active, not recruiting |
NCT06043167 -
Clinimetric Application of FOUR Scale as in Treatment and Rehabilitation of Patients With Acute Cerebral Injury
|
||
| Active, not recruiting |
NCT04535479 -
Dry Needling for Spasticity in Stroke
|
N/A | |
| Completed |
NCT03985761 -
Utilizing Gaming Mechanics to Optimize Telerehabilitation Adherence in Persons With Stroke
|
N/A | |
| Recruiting |
NCT00859885 -
International PFO Consortium
|
N/A | |
| Recruiting |
NCT06034119 -
Effects of Voluntary Adjustments During Walking in Participants Post-stroke
|
N/A | |
| Completed |
NCT03622411 -
Tablet-based Aphasia Therapy in the Chronic Phase
|
N/A | |
| Completed |
NCT01662960 -
Visual Feedback Therapy for Treating Individuals With Hemiparesis Following Stroke
|
N/A | |
| Recruiting |
NCT05854485 -
Robot-Aided Assessment and Rehabilitation of Upper Extremity Function After Stroke
|
N/A | |
| Active, not recruiting |
NCT05520528 -
Impact of Group Participation on Adults With Aphasia
|
N/A | |
| Completed |
NCT03366129 -
Blood-Brain Barrier Disruption in People With White Matter Hyperintensities Who Have Had a Stroke
|
||
| Completed |
NCT05805748 -
Serious Game Therapy in Neglect Patients
|
N/A | |
| Completed |
NCT03281590 -
Stroke and Cerebrovascular Diseases Registry
|
||
| Recruiting |
NCT05993221 -
Deconstructing Post Stroke Hemiparesis
|