Stroke patients have higher levels of visual dependence, which affects orientation, balance and gait. Visual adaption or habituation training aiming to decrease visual sensitivity and tolerance, is commonly used to decrease the levels of visual dependence. However, the visual adaption training often evokes unbearable vertigo, resulting in lower compliance to training program. In addition, stroke patients who have higher visual dependence may not have the symptom of dizziness. Therefore, it is unclear whether visual adaption training has similar effects on stroke patients. Visual dependence is considered as a sensory reweighting deficit and therefore visual dependence could be improved through multisensory balance training which comprises of visual, vestibular, and proprioceptive manipulation. This study will investigate the effects of early multisensory balance training on visual dependence, balance and gait in subacute stroke patients.
A total of 80 subacute stroke participants will be randomly assigned to either experimental and control groups. Participants in the experimental group will receive multisensory balance training while those in the control group will maintain their regular care. All participants will be assessed their levels of visual dependence, motor ability, balance and gait, vertigo symptom and activities of daily living before and after intervention program as well as at 3-month follow-up.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
80
Multisensory Balance training includes 30 minutes per day, 5 days a week for 4 weeks, using visual, proprioceptive, and vestibular manipulations. The exercises involved movements of the eye, head, and body to stimulate the vestibular system, postural control exercises in different positions (feet together, tandem stance, and one leg stance), use of a soft surface to reduce the proprioceptive inputs, and exercises with closed eyes to deprive them of visual cues.
Taipei Tzu Chi Hospital
New Taipei City, Taiwan
Perceived visual dependence
Perceived visual dependence will be assessed using a computerized Rod and Disc Test (RDT). Participants will adjust a tilted rod to their subjective visual vertical with rotating visual background. The error (degrees) between subjective visual vertical and gravitational vertical will be measured and represented as the level of visual dependence. Higher error indicates higher level of perceived visual dependence.
Time frame: Change from Baseline perceived visual dependence at Week 4 and at Week 16
Postural visual dependence
Postural sway will be measured using an accelerometer attached on the lower back when participants are looking at blank wall, eyes closed and looking at rotating visual background. Greater postural sway in conditions with eyes closed and rotating visual background corresponding to looking at blank wall represents the higher level of postural visual dependence.
Time frame: Change from Baseline postural visual dependence at Week 4 and at Week 16
Five Times Sit to Stand Test
The Five Times Sit to Stand Test (5STS) evaluates functional lower extremity strength. Participants will be asked to sit to stand for 5 times as quickly as possible. The time to complete the task will be recorded. The shorter duration (s) represents the better muscle strength in lower limbs.
Time frame: Change from Baseline Five Times Sit to Stand Test at Week 4 and at Week 16
Berg Balance Scale
The Berg balance scale (BBS) is used to objectively determine a participant's ability to safely balance during a series of predetermined tasks. It is a 14 item list with each item consisting of a five-point ordinal scale ranging from 0 to 4, with 0 indicating the lowest level of function and 4 the highest level of function. The total score is 56.
Time frame: Change from Baseline Berg Balance Scale at Week 4 and at Week 16
Timed Up and Go test
Function mobility was assessed by the Timed Up and Go (TUG) test. Participants were instructed to stand up from a chair, walk 3 meters, turn around, and walk back to the chair sit down. Time (s) to complete the task was recorded. The more time taken is representative of the lower level of functional mobility.
Time frame: Change from Baseline Timed Up and Go test at Week 4 and at Week 16
Modified Clinical Test of Sensory Integration and Balance
Modified Clinical Test of Sensory Integration and Balance (mCTSIB) is designed to assess how well an older adult is using sensory inputs when one or more sensory systems are compromised. The postural sway was measured in 4 sensory conditions through visual and proprioceptive manipulation using APDM Opal wireless sensors. The greater postural sway represents the poorer balance.
Time frame: Change from Baseline Modified Clinical Test of Sensory Integration and Balance at Week 4 and at Week 16
Falls Efficacy Scale- International
Falls Efficacy Scale- International (FES-I) assesses subjects' concerns about falling. It consists of 16 questions related to everyday activities and subjects are asked to rate whether they were "not at all" (a score of 1), "somewhat" (2), "fairly" (3) or "very" (4) concerned about falling when doing that particular activity. The sum scores ranged 16 - 64 with higher scores indicating a greater fear of falling.
Time frame: Change from Baseline Falls Efficacy Scale- International at Week 4 and at Week 16
Situational Vertigo Questionnaire
The Situational Vertigo Questionnaire (SVQ) is a 19-item questionnaire specifically aimed at identifying the presence of visual vertigo, a condition attributable to a defective vestibular compensation strategy, which is too dependent on the available visual information. patients to rate how much vertigo symptoms are provoked or exacerbated in environments with visual-vestibular conflict and yields a score for each item between 0 (not at all) to 4 (very much); a "never experienced" answer can be given if the patient has never experienced the described situation. The total score will be then calculated as the sum of single item scores divided per 19 minus the number of never experienced situations (total score/19-number of "never experienced" answer). Higher score represents more severe vertigo symptoms.
Time frame: Change from Baseline Situational Vertigo Questionnaire at Week 4 and at Week 16
Gait pattern
Gait pattern will be evaluated using a Opal wireless system. Participants will be asked to walk in a 14-meter walkway. The first and final 2 meters are designed for acceleration and deceleration. The middle 10-meter will be analyzed only.
Time frame: Change from Baseline Gait pattern at Week 4 and at Week 16
Barthel Index
The Barthel Index (BI) is an ordinal scale used to measure performance in activities of daily living (ADL). Ten variables describing ADL and mobility are scored. The total score is 100 and higher score represents more independent in ADL.
Time frame: Change from Baseline Barthel Index at Week 4 and at Week 16
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