The purpose of this study is to understand how prism adaptation training with and without electrical stimulation changes visuospatial behavior, motor system neurophysiology, and walking dysfunction.
Spatial Neglect (SN) is defined as pathological asymmetric spatial behavior causing functional disability and occurs in greater than 50% of individuals with right hemisphere stroke. SN post-stroke is associated with increased fall risk, increased hospital length of stay, poorer rehabilitation outcomes, and severe long-term disability. Prism adaptation therapy (PAT) is an evidence-based treatment for SN after stroke, however, the effects of SN on gait are not well known. Neuromuscular electrical stimulation delivered via surface electrodes is a common therapeutic adjunct in stroke rehabilitation, including for SN and gait training. However, the additive therapeutic effects of combining electrical stimulation and PAT, as well as the effects of motor training on gait deficits associated with SN are poorly understood. Furthermore, although there is limited literature examining the effects of electrical stimulation on corticospinal tract output (CST), there is an inadequate understanding of the neural mechanisms of PAT and the combinatorial effects of PAT with electrical stimulation. To parse out the neural mechanisms of PAT and electrical stimulation on the visuospatial system, researchers will first examine the effects of PAT with or without electrical stimulation in neurologically unimpaired adults, researchers will then compare results to individuals with stroke with spatial neglect. The primary objective is to study the effects of PAT on visuospatial behavior and motor cortical excitability in able-bodied individuals (young and older), and on spatial neglect, motor cortical neurophysiology, and walking function in individuals post-stroke. The long-term goal of this project is to develop novel, effective, and personalized rehabilitation protocols targeting SN deficits and gait dysfunction to reduce disability in stroke survivors. The rationale of this project is to explore and generate data regarding future novel combinatorial motor-spatial retraining approaches that will enhance the rehabilitation approach of SN and gait performance in individuals post-stroke.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
DOUBLE
Enrollment
65
PAT requires one to wear prism lenses while making arm-reaching movements toward visual targets. For treating left-sided neglect, a person wears the prism lenses that shift the visual field, including the images of the target and of one's own reaching arm, certain degrees to the right depending on the diopter of the lens (e.g., the 20-diopter lens shifts the visual field by 11.4 degrees). The visual system adapts over the repetitive practice of the arm reaching toward the target. The person eventually achieves success with a leftward movement reaching the actual target. Electrical stimulation (E-stim) involves parameters and settings commonly used in clinical practice as well as research for pain relief and other applications, commonly referred to as transcutaneous electrical nerve stimulation (TENS). TENS and E-stim are delivered using FDA-approved, commercially available portable clinical transcutaneous electrical stimulators (e.g. Empi TENS Unit).
Participants in the PAT with sham stim condition group will receive sham electrical stimulation treatment (electrodes will be attached but the stimulator will not be turned on) to the left upper limb with the same placement of electrodes while undergoing PAT.
Emory Rehabilitation Hospital
Atlanta, Georgia, United States
RECRUITINGEmory University Hospital (EUH)
Atlanta, Georgia, United States
RECRUITINGExecutive Park
Atlanta, Georgia, United States
RECRUITINGChange in visuospatial pointing behavior
Measured by the neuropsychological laboratory pointing behavior with the Kessler Foundation Neglect Assessment Process (KF-NAP) tool. Patients are asked to point with their eyes closed towards the center (proprioceptive pointing) and eyes open towards a target (visuo-proprioceptive pointing) on a standing calibrated board unaffected hand). The test is scored by measuring the deviation from 0 (midline). Pre-PAT and post-PAT measures are compared, there is no minimum or maximum score. A more negative score (Pre to Post) means improvement in visuospatial alignment (Improved left spatial neglect) in people post-stroke.
Time frame: Pre-training and immediately after training session
Change in intracortical excitability [paired pulse transcranial Magnetic Stimulation (TMS)]
Primary Motor Cortex (M1) and TMS from the hand muscles (first dorsal interossei) and the ankle (soleus) will be measured using Computer software (Biopac) that will record the muscle's responses to TMS pulses (MEPs) through electromyography (EMG) sensors attached to the skin of the legs and/or arms.
Time frame: Pre-training and immediately after training session
Change in corticospinal excitability (single pulse TMS)
Change in corticospinal excitability measured by the change from baseline in motor evoked potentials (MEP) amplitude responses from the hand muscles (first dorsal interossei) and the ankle (soleus) will be measured using Computer software (Biopac) that will record the muscle's responses to TMS pulses (MEPs) through electromyography (EMG) sensors attached to the skin of the legs and/or arms.
Time frame: Pre-training and immediately after training session
Change in spatial neglect deficits
Measured by the clinical tests Behavioral Inattention Test (BIT). The BIT Conventional (BITC) subtest consists of 6 items: line crossing, letter cancelation, star cancellation, figure and shape copying, line bisection, and representational drawing. The Cut-offs score for the BITC is 129 out of 146. Higher scores are indicative of more severe visual impairment.
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After PAT, participants will complete multiple 30-seconds to 4-minute bouts of walking on the treadmill or overground at speeds ranging from self-selected to fast speeds (faster than comfortable self-selected speed), with rest breaks between bouts.
Time frame: Pre-training and immediately after training session
Change in computerized line bisection task
Participants are asked to perform the conventional 24cm line bisection task on a 14-inch screen computer screen, placed 55cm from a seated position, with the unaffected hand using a mouse. There are 64 lines, half of which are in normal condition and half in reversed condition. The test is scored by measuring the deviation of the bisection from the true center of the line. A deviation negative of zero (0) is indicative of spatial neglect; Pre-PAT and post-PAT measures are compared, and a negative score reflects a shift to the left visual space- the effect of PAT
Time frame: Pre-training and immediately after training session
Change in the Catherine Bergego Scale (CBS)
Measured by a validated assessment tool that is sensitive to SN and its functional sequela; CBS motor items have been validated to identify Aiming SN. The CBS uses a 4-point rating scale to indicate the severity of neglect for each item: 0 = no neglect 1. = mild neglect (patient always explores the right hemispace first and slowly or hesitantly explores the left side) 2. = moderate neglect (patient demonstrates constant and clear left-sided omissions or collisions) 3. = severe neglect (patient is only able to explore the right hemispace) This results in a total score of 30. Reported arbitrary ratings of neglect severity according to total scores: 0 = No behavioral neglect 1-10 = Mild behavioral neglect 11-20 = Moderate behavioral neglect 21-30 = Severe behavioral neglect
Time frame: Pre-training and immediately after training session
Change in weight-bearing asymmetry
This outcome will be measured only in participants who have had a stroke. Force platform data obtained from a dual-belt instrumented treadmill during 3-d motion capture will be used to calculate inter-limb asymmetry in vertical ground reaction forces in standing and during the stance phase of gait.
Time frame: Pre-training and immediately after training session