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The goal of this clinical trial is to investigate upper-extremity vibrotactile stimulation with wearables in stroke patients. The main questions it aims to answer are: Are the wearables well-tolerated by patients? Does the vibrotactile stimulation help regain arm function? Participants will wear vibrotactile stimulation gloves and shirts for 5 hours daily during their stay at the rehabilitation unit, in addition to conventional therapy. Researchers will compare the treatment group (vibrotactile stimulation wearables) with a control group (conventional therapy only) to see the effects of the vibrotactile stimulation.
After a right brain stroke, \>50% of Veterans experience problems with dressing, eating, self-care or steering their wheelchairs because their ability to move, orient, and respond toward the left side is limited: spatial neglect. Spatial neglect prevents them from functioning independently, and their needs in the hospital and at home are greatly increased. An effective treatment for spatial neglect is 10 days of visuomotor training while wearing optical prisms (PAT), however many clinicians \[fail to diagnose spatial neglect and use this approach. In this study, the investigators will develop a brain scanning test that could objectively identify the Veterans with spatial neglect after stroke who are the best candidates to receive PAT and recover their ability to function. When the research is complete, the investigators expect that brain scans done in the hospital can guide the team to refer Veterans to PAT rehabilitation: improving daily life function\] and quality of life.
Sleep is critical for health and quality of life; however, little is known about the prevalence or impact of non obstructive sleep apnea (non-OSA) sleep disorders in people with stroke. The proposed study aims to characterize the proportion of people with stroke that have non-OSA sleep disorders and their impact on recovery of activities of daily living, functional mobility, and participation along the continuum of recovery in people with stroke.
Stroke is a leading cause of disability in the U.S. and many Veteran stroke survivors live with severe disability. Despite recent advances in rehabilitation treatments many stroke survivors have persistent physical and mental difficulties such as reduced physical and cognitive function and depression. Developing innovative treatments that address these problems is necessary to improve long-term outcomes for stroke survivors. Aerobic exercise (AEx) can improve physical and cognitive function, and reduce depression. Additionally, AEx may enhance physical rehabilitation by making the brain more receptive to, and consequently improving the response to an intervention. Therefore, combining AEx with physical rehabilitation has the potential to improve multiple aspects of stroke recovery. This study will examine the effect of combining AEx with physical rehabilitation on physical and mental function in stroke survivors. By gaining a better understanding of the effects of this combined intervention the investigators aim to advance the rehabilitative care of Veteran stroke survivors.
The investigators have developed a novel robot-guided stretching under intelligent control and combine it with active movement training, which helped increase joint ROM, reduce spasticity and joint stiffness, increase muscle force output, and improve locomotion. However, for stroke survivors with sensorimotor impairment, their peripheral muscle may not sufficiently be recruited. Functional electrical stimulation (FES), has been shown its advantage to activate the peripheral muscles for people with neurological conditions. The investigators thus make a hybrid robot-FES rehabilitation system, combining the advantage of robot and FES technologies for stroke motor recovery. The investigators further would like to translate the technologies from lab to home-based training. Thus, the investigators will conduct a randomized, controlled, primarily home-based clinical trial using an ankle robot alone or combined with functional electrical stimulation (FES) to treat sensorimotor and locomotion impairments post-stroke.
The investigators will determine the client and non-client variables associated with discharge to an inpatient rehabilitation facility vs. skilled nursing facility in individuals' post-stroke. The investigators will determine how these variables are associated with short-term (discharge from facility) and long-term (6-months post-stroke) function and quality of life.
The purpose of this study is to determine whether the effect of treatment for acquired speech impairment can be enhanced by combining effective behavioral treatment with non-invasive brain stimulation. Transcranial direct current stimulation (tDCS), which delivers low-intensity current to the scalp, and is a safe and well-tolerated approach that poses a non-significant risk to participants. tDCS provides low intensity neural stimulation which has been shown to facilitate motor learning in other domains of stroke rehabilitation such as arm motor learning but the potential to enhance speech motor learning has not been explored. This will be examined with a series of single-case experimental designs.
The purpose of this research is to determine if two non-invasive brain stimulation techniques, muscle stimulation of the arm and neuro-stimulation through the tongue, can increase the extent of stroke recovery.
Stroke survivors with lower limb disability can improve their walking speed with high-intensity interval training (HIIT) rehabilitation therapy. However, some individuals may not respond to HIIT even when fully adherent to the program. To address this, the investigators propose to build a predictive model that identifies if a Veteran with chronic subcortical stroke will improve their walking speed with HIIT by incorporating blood lactate as an early predictor of exercise response, and inhibitory neurotransmitter gamma-aminobutyric acid (GABA) and regional cerebral blood flow (CBF) as predictors of the brain's potential to respond, while also taking into consideration other factors such as comorbidities, demographics, and fitness levels.
Speech-language therapy is generally found to be helpful in the rehabilitation of aphasia. However, not all patients with aphasia have access to adequate treatment to maximize their recovery. The goal of this project is to compare the efficacy of telerehabilitation or Aphasia Remote Therapy (ART) to the more traditional In-Clinic Therapy (I-CT).