Sometimes, it is necessary to re-learn a previously learned movement behavior, for example, a bad posture during the golf drive or while playing the piano. Unlearning or relearning an intensively trained behavior is particularly important if the behavior is hampering recovery, for example, in chronic pain or after a stroke. With this study, we experimentally test the brain mechanisms that control the change of pre-existing stable memories of a motor skill with electroencephalography (EEG). We will then use non-invasive brain stimulation to modulate these brain mechanisms and test if it is possible to change the pre-existing motor memory and the learning of a new motor skill.

Adherence to home exercise is important to achieve upper limb recovery after stroke. However, adherence is typically low. Therefore, a new home exercise program with an Apple Watch and iPhone app was created to improve adherence to upper limb exercises for stroke survivors at home. Participants will come to our lab to experience the new home exercise program. Participants who opt for home use will bring the device home to try the new home exercise program at home. The purpose of this study is for researchers to examine usability and feasibility of participants using the new home exercise program.

We will determine if aerobic exercise (AEx) and/or repetitive transcranial magnetic stimulation (rTMS) are effective in treating symptoms of depression following stroke. This project is based on the idea that depression negatively affects the brain so that it doesn't change in the same way following treatment, the result being less effective recovery. We believe that effective treatment for depression will help improve how the brain in people with depression responds to other types of treatment. That is, effectively treating depression will enable individuals to better recover other forms of function following their stroke.

The goal of this study is to get the highest possible quality of life restuls for individuals suffering lower-limb impairment after suffering a stroke. This will be done by examining three different modern carbon fiber ankle-foot orthosis (AFO) options targeting the rehabilitation of individuals post-stroke. The study seeks to achieve the best AFO prescription that maximizes the mobility and satisfaction of the particpant.

Cardiac rehabilitation is the standard-of-care treatment option for patients with cardiovascular disease and has been shown to improve many aspects critical to patient recovery. We believe that individuals who have had a stroke need to be treated similarly. We will study the effects of a comprehensive modified cardiac rehabilitation program to determine if it can improve some of the physical and psychosocial problems common in survivors of stroke with and without depression.

Stroke survivors routinely report disabling emotional health challenges and inability to find emotional wellness support. This project will increase emotional support within a stroke rehabilitation occupational therapy (OT) and/or speech therapy (ST) rehabilitation program. OT and/or ST provided via telerehabilitation will be enhanced with a type of emotional wellness therapy that teaches stroke survivors various strategies to better address anxiety, worry and dread.

Apathy is a common set of symptoms seen in many people following a stroke. Apathy occurs when a person has lost motivation, becomes withdrawn, and stops doing things that used to be important to them. Apathy has a large negative impact on a person's quality of life, and can also have a large impact the people who take care of individuals with apathy. There are currently no FDA-approved treatments to help with apathy, and other services like therapy may be difficult to access for people who have had a stroke. To address this problem, we are conducting a study to find out if a form of treatment called repetitive transcranial magnetic stimulation (rTMS) can be safe and helpful for people struggling with apathy after a stroke. Our study will apply a new form of rTMS which can be delivered quickly to a part of the brain called the medial prefrontal cortex (mPFC). Our study will help establish whether this treatment is safe, comfortable, and effective for people with apathy after a stroke, and will help researchers develop new forms of treatment.

Newborns who are born premature or infants who suffer brain injury are at risk for motor problems. The common motor skills of reaching and grasping that infants have to learn can be weaker on one side of the body, depending on the site of the brain injury. These skills are routinely practiced with an occupational therapist once or twice a week, to help the infant strengthen these skills. A high intensity therapy program of constraint induced movement therapy (CIMT) may be available for the infant, but it takes from 40-120 hours total treatment time for most infants to improve their motor skills.
Transcutaneous auricular vagus nerve stimulation (taVNS) stimulates a branch of a major nerve by the ear, called the vagus nerve, that may help improve your child's ability to learn motor skills. CIMT involves placing a soft mitt constraint on the stronger arm and hand while encouraging your child to use the weaker arm and hand during intensive therapy sessions. By using both CIMT and the nerve stimulation together, we hope your child's movement skills will improve more than with therapy alone.
The purpose of this study is to evaluate the safety and effectiveness of taVNS to improve motor skills when paired with the minimal amount of CIMT and whether a measure of the strength of the brain circuit to the arm and hand muscles can tell us how well a child may respond to this therapy.

The purpose of this research study is to demonstrate that telerehabilitation targeting arm movement, when added to usual care, can improve arm function and reduce global disability after stroke, compared to usual care alone.

Telerehabilitation uses technology like video calls to provide therapy and medical support from a distance. This means patients can get care from their therapists without going to a clinic or hospital, making it easier for people, especially those with mobility issues or who live far away, to receive treatment

After leaving the hospital and finishing therapies, stroke survivors often do not have the supports they need to fully recover. Many live with problems for a long time after their stroke, such as trouble walking or doing everyday tasks like cleaning, grocery shopping, or cooking. Research suggests that healthy habits, like moving more, eating well, and being at a healthy weight, can improve most of these disabilities. These habits can be hard to form alone though, especially in rural areas that may not have many healthy foods or places to exercise. The goal of this research project is to test StrongPeople StrongHearts, a health program, to see if it helps stroke survivors in South Carolina make better choices for their health and improve their quality of life. The program will be delivered online so that survivors in rural areas can be in the program. One group will also receive a weekly grocery box tailored to their needs to improve access to healthy foods. This study could help increase access to research-based programs for stroke survivors who do not have the supports they did soon after their stroke.