Stroke is a leading cause of disability. Most stroke survivors face challenge in using their arm and hand to carry out daily task, such as grasping or holding objects. This issue makes it tough for nearly 65% of stroke survivors to return to work and take care of themselves. The cause of their disability is changes in their brain's activity patterns of the motor cortex area. Traditional therapy does not directly alter these brain changes, which makes it less effective. As a way to help stroke survivors, people are looking into ways to train the brain directly. A method they found is motor imagery, which involves mental practicing of a task. Studies suggest that this type of training can potentially alter the brain's patterns, which can be seen through EEG. An EEG shows a fixed pattern during movement, called SMR (sensory motor rhythm). Studies have found that people can learn to control this SMR through mental practice of a task. The SMR changes in a similar way during both movement and motor imagery. Therefore, mental practice of hand tasks can lead to improvement in actual hand movements. It has already been shown that stroke survivors can open their hands more easily after receiving SMR training. Along with that, they also have trouble to hold and release objects. SMR training may be able to address these issues by changing brain patterns. But it is not clear yet if SMR training can improve all three stages of grasping (open, close, release), and to what extent it can enhance overall hand function. This study plans to include 20 adults who have experienced a stroke and have ongoing problems with moving their hands. Half of these participants will take part in a training in which they will learn to control their SMR for three distinct hand tasks (open, close, and release). The first session will be followed by eight training sessions. To guide users toward specific changes in EEG activity, we will provide visual feedback in training. As soon as an appropriate EEG change is made, a hand exoskeleton will help them open and close their hand. The other group of 10 patients will have traditional therapy. They will do 9 sessions of hand exercises. During and after the training, we will test both groups to see how well their hand function improved. The result will help us determine which training method is better for stroke survivors.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
20
This intervention will include mental practice of various hand movements accompanied by guided visual feedback, aimed at regulating brain activation patterns to facilitate the restoration of hand movements. We will also incorporate EMG signals to control a hand exoskeleton.
This intervention will include engaging in a set of particular hand exercises with the aim of enhancing hand movements.
Hand Rehabilitation Lab
Raleigh, North Carolina, United States
Change of Box & Block test (BBT)
A quick, simple and inexpensive test used to assess and monitor unilateral gross manual dexterity
Time frame: Change of value from before the intervention to immediately after the intervention
Change of Action Research Arm Test (ARAT)
A standardized measure used to assess upper extremity performance (coordination, dexterity and functioning) in stroke recovery
Time frame: Change of value from before the intervention to immediately after the intervention
Change of Wolf Motor Function Test (WMFT)
A standardized, quantitative assessment used to assess upper extremity (UE) motor ability through timed and functional tasks
Time frame: Change of value from before the intervention to immediately after the intervention
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