Incremental Velocity Error as a New Treatment in Vestibular Rehabilitation
- Conditions
- Mild Traumatic Brain InjuryVestibular Neuropathy
- Interventions
- Device: Incremental Velocity Error (IVE)Behavioral: Traditional Vestibular Rehabilitation (VPT)
- Registration Number
- NCT03846830
- Lead Sponsor
- Johns Hopkins University
- Brief Summary
The objective for this study is to compare outcome measures from vestibular rehabilitation (VPT) delivered in a traditional method against a new device Incremental Velocity Error (IVE) that improves physiologic performance of the vestibulo-ocular reflex. Participants include active duty service members with mild traumatic brain injury (mTBI) and civilians with peripheral vestibular hypofunction. The investigators will use a clinical trial cross-over design with randomization to either the control (VPT) or experimental (IVE) group and measure vestibulo-ocular reflex function as well as subjective and functional outcomes in order to investigate the best means to improve delivery of vestibular rehabilitation.
- Detailed Description
Not available
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 24
- Greater than or equal to 18 years old
- Service members with mTBI and civilian patients with vestibular hypofunction, both of which reports vestibular symptoms (i.e. dizziness, imbalance).
- Any subjects with a self-reported history of significant ophthalmic, neuromuscular, cardiovascular (except hypertension), renal/electrolyte and psychiatric disorders
- Those with uncontrolled severe hypertension (systolic BP of >200 mm Hg and/or a diastolic BP of > 110 mmHg at rest)
- Those with a recent history of alcohol and/or drug abuse within the past 6 months
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- CROSSOVER
- Arm && Interventions
Group Intervention Description IVE/VPT 6 week Crossover Incremental Velocity Error (IVE) Subjects will randomly be placed in one of two groups (IVE or VPT) involving daily exercise for 5 weeks, 6 weeks washout, and then crossover into the other group for a final 5 weeks. The Incremental Velocity Error (IVE) group uses a device worn on the head that delivers a moving target during head motion; while Traditional Vestibular Rehabilitation (VPT) uses the traditional eye and head turning rehabilitation exercises. Gait and balance training offered throughout each of the 5 weeks epochs of training. IVE/VPT 6 week Crossover Traditional Vestibular Rehabilitation (VPT) Subjects will randomly be placed in one of two groups (IVE or VPT) involving daily exercise for 5 weeks, 6 weeks washout, and then crossover into the other group for a final 5 weeks. The Incremental Velocity Error (IVE) group uses a device worn on the head that delivers a moving target during head motion; while Traditional Vestibular Rehabilitation (VPT) uses the traditional eye and head turning rehabilitation exercises. Gait and balance training offered throughout each of the 5 weeks epochs of training. IVE/VPT 3 week Crossover Incremental Velocity Error (IVE) Subjects will randomly be placed in one of two groups (IVE or VPT) involving daily exercise for 3 weeks, 3 weeks washout, and then crossover into the other group for a final 3 weeks. The Incremental Velocity Error (IVE) group uses a device worn on the head that delivers a moving target during head motion; while Traditional Vestibular Rehabilitation (VPT) uses the traditional eye and head turning rehabilitation exercises. Gait and balance training will not start until the washout period. IVE/VPT 3 week crossover Traditional Vestibular Rehabilitation (VPT) Subjects will randomly be placed in one of two groups (IVE or VPT) involving every other day exercise for 3 weeks, 3 weeks washout, and then crossover into the other group for a final 3 weeks. The Incremental Velocity Error (IVE) group uses a device worn on the head that delivers a moving target during head motion; while Traditional Vestibular Rehabilitation (VPT) uses the traditional eye and head turning rehabilitation exercises. Gait and balance training offered throughout the 3 weeks of exercise. IVE/VPT 3 week Crossover Traditional Vestibular Rehabilitation (VPT) Subjects will randomly be placed in one of two groups (IVE or VPT) involving daily exercise for 3 weeks, 3 weeks washout, and then crossover into the other group for a final 3 weeks. The Incremental Velocity Error (IVE) group uses a device worn on the head that delivers a moving target during head motion; while Traditional Vestibular Rehabilitation (VPT) uses the traditional eye and head turning rehabilitation exercises. Gait and balance training will not start until the washout period. IVE/VPT 3 week crossover Incremental Velocity Error (IVE) Subjects will randomly be placed in one of two groups (IVE or VPT) involving every other day exercise for 3 weeks, 3 weeks washout, and then crossover into the other group for a final 3 weeks. The Incremental Velocity Error (IVE) group uses a device worn on the head that delivers a moving target during head motion; while Traditional Vestibular Rehabilitation (VPT) uses the traditional eye and head turning rehabilitation exercises. Gait and balance training offered throughout the 3 weeks of exercise.
- Primary Outcome Measures
Name Time Method Change in vestibulo-ocular reflex (VOR) Gain Weekly, up to 6 months A ratio of eye/head velocity measured using a small video camera attached to a lightweight headband. This is an off-the-shelf device commonly used in clinic. Scores typically vary between 0 and 1.2 and normal ranges are between 0.8 and 1.2.
- Secondary Outcome Measures
Name Time Method Baseline oculomotor function assessed with Videonystagmography/Electronystagmography (VNG/ENG) At first visit, up to 30 minutes. This is a standard clinical test being done to characterize baseline vestibular function.
The VNG/ENG is a suite of tests that measure oculomotor function and vestibular function by asking subjects to follow moving targets while the eyes are recording with video (VNG) or electrodes (ENG). Also included is a warm and cold air flush into the external ear, which stimulates the 8th cranial nerve. The report includes measures of eye velocity (deg/sec), position, (deg) and acceleration (deg/sec/sec) relative to the moving targets. Data also includes velocity of eye rotations relative to healthy controls. These data are presented in a plot that is compared to normative values provided by the company to assess baseline oculomotor function.Change in Dizziness Handicap Inventory Every other week, up to 6 months This is a questionnaire filled out by the subject that includes items describing the behavioral impact of experiencing dizziness/imbalance. Each items is scored as a Likert scale type variable where subjects answer Yes Sometimes or No. Scores range from 0-100, with 0 indicating no impact of dizziness while scores of 100 indicate a severe impact.
Change in Time ( in seconds) Standing during the Modified Clinical Test of Sensory Interaction on Balance (mCTSIB) Every other week, up to 6 months Subjects stand quietly (arms folded) on the ground or on a compliant surface while time is measured up to 30 seconds. This is a standard measure of standing posture/balance. Each participant gets a score ranging from 0 to 30 seconds with higher scores correlating with a better balance.
Change in the tandem walk test assessed by number of steps taken Every other week, up to 6 months Ability to walk heel to toe for a distance of 10 steps.
Change in the time to complete the Timed Up and Go (TUG) Contra Turn. Every other week, up to 6 months Subjects total time (in seconds) is recorded to stand from seated position, walk 3 meters, turn around 180-degrees and return to sit.
Baseline vestibular function assessed with Vestibular Evoked Myogenic Potential (VEMP) At first visit, up to 20 minutes. This is a standard clinical test being done to characterize baseline vestibular function. The VEMP test uses surface electromyography to record sternocleidomastoid and/or inferior oblique muscle activity. The report output is the latency and magnitude of the muscle response. These data are presented in a plot that is compared to normative values provided by the company to assess baseline vestibular function.
Change in Neurobehavioral Symptom Inventory (NSI) Every other week, up to 6 months This is a 22 item questionnaire that asks how bothersome symptoms are. Items are scored from 0 (None) to 4 (Very Severe). HIgher scores imply the symptoms are more bothersome.
Change in Dynamic Visual Acuity (DVA) Every other week, up to 6 months This is a standard clinical test of visual acuity during active (self-generated) head rotation. Subjects identify letters on a computer monitor; scores range from 20/10 acuity to 20/800 and normative data are available to compare.
Pre Rate of Perceived Exertion for the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test involve stepping on/off a 6-in step while viewing a virtual video patrol scenario. Rate of Perceived Exertion (RPE) is measured on a scale from 6 (rest) - 20 (maximal exertion) scale.
Change in Headache during the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test that includes stepping while viewing a virtual scenario of a patrol task. Subjects step on/off a 6-inch step while being asked to identify objects in the virtual scene. The headache is rated on a a visual analog scale from 0 (no symptoms) -10 (worse symptoms).
Baseline vestibular function assessed with Videonystagmography/Electronystagmography (VNG/ENG) At first visit, up to 30 minutes. The VNG/ENG is a suite of tests that measure oculomotor function and vestibular function by asking subjects to follow moving targets while the eyes are recording with video (VNG) or electrodes (ENG). Also included is a warm and cold air flush into the external ear, which stimulates the 8th cranial nerve. The report includes measures of eye velocity (deg/sec), position, (deg) and acceleration (deg/sec/sec) relative to the moving targets. These data are presented in a plot that is compared to normative values provided by the company to assess baseline vestibular function.
Change in Activity Specific Balance Confidence scale (ABC) Every other week, up to 6 months Self-report measure that asks subjects to rate their confidence performing 16 activities of daily living. Each item is scored from 0 to 100% in 10% increments with 0% indicating No confidence and 100% indicating Complete confidence.
Change in Patient Global Impression of Change (PGIC) Every other week, up to 6 months This is a questionnaire filled out by the subject that assesses change in activity, symptoms, emotions, and overall quality of life. Items are between 1 (no change) to 7 (considerable) and higher scores suggest a better change in symptom management.
Change in Area (in degrees) of Sway during the Modified Clinical Test of Sensory Interaction on Balance (mCTSIB) Every other week, up to 6 months Subjects stand quietly (arms folded) on the ground or on a compliant surface while sway is measured using small sensors placed on the body (inertial measurement units). The sensors measure amount of sway in degrees and the duration the subject stands is measured for up to 30 seconds. Sway scores range 0 to 20 degrees of motion side to side and fore-aft. Lower scores correlate with a better balance.
Change in Fogginess (mental) during the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test that includes stepping while viewing a virtual scenario of a patrol task. Subjects step on/off a 6-inch step while being asked to identify objects in the virtual scene. The fogginess is rated on a visual analog scale from 0 (no symptoms) -10 (worse symptoms).
Change in Dizziness during the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test that includes stepping while viewing a virtual scenario of a patrol task. Subjects step on/off a 6-inch step while being asked to identify objects in the virtual scene. The dizziness is on a visual analog scale from from 0 (no symptoms) -10 (worse symptoms).
Change in Nausea during the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test that includes stepping while viewing a virtual scenario of a patrol task. Subjects step on/off a 6-inch step while being asked to identify objects in the virtual scene. The nausea is rated on a a visual analog scale from 0 (no symptoms) -10 (worse symptoms).
Baseline vestibular function assessed with Rotary Chair At first visit, up to 40 minutes. This is a standard clinical test being done to characterize baseline vestibular function. The Rotary Chair test positions subjects in an enclosure, seated in a chair that moves 360deg at 60 and 240 deg/sec. The report includes measures of eye and head velocity (deg/sec) and position (deg). These data are presented in a plot that is compared to normative values provided by the company to assess baseline vestibular function.
Change in the time to complete the Timed Up and Go (TUG) Ipsi Turn. Every other week, up to 6 months Subjects total time (in seconds) is recorded to stand from seated position, walk 3 meters, turn around 180-degrees and return to sit.
Change in Mean Reaction Time during the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test involve stepping on/off a 6-in step while viewing a virtual video patrol scenario. The reaction time (in milliseconds) to respond to 11 auditory cues embedded in the virtual scene is measured.
Change in visual acuity during the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test involving the use of virtual reality goggles and viewing a scenario that mimic a patrolling scenario. Subjects step on/off a 6-inch step while being asked to identify objects in the scene. A subjective rating of visual acuity using a visual analog scale from 0 (no symptoms) -10 (worse symptoms).
Change in 5 min heart rate during the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test involve stepping on/off a 6-in step while viewing a virtual video patrol scenario. The heart rate at 5 minute is measured in beats per minute.
Pre heart rate during the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test involve stepping on/off a 6-in step while viewing a virtual video patrol scenario. The initial heart rate is measured in beats per minute.
Post (video) heart rate during the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test involve stepping on/off a 6-in step while viewing a virtual video patrol scenario. The post video completion heart rate is measured in beats per minute.
Final heart rate during the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test involve stepping on/off a 6-in step while viewing a virtual video patrol scenario. The 3 min post video completion heart rate is measured in beats per minute.
5 min Rate of Perceived Exertion for the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test involve stepping on/off a 6-in step while viewing a virtual video patrol scenario. RPE is measured at the 5th minute from starting the video using the 6 (rest) - 20 (maximal exertion) scale.
Change in the Functional Gait Assessment (FGA) Every other week, up to 6 months The FGA is a 10-item behavioral test assessing risk for fall. Each items is scored from 0 (severe) to 3 (normal) impairment. Scores range from 0 - 30 with scores compared against normative data.
Post (video) Rate of Perceived Exertion for the Patrol Exertion Multitask Test (PEMT) Every other week, up to 6 months This is a 12-minute test involve stepping on/off a 6-in step while viewing a virtual video patrol scenario. Post RPE is measured at the end of the video using the 6 (rest) - 20 (maximal exertion) scale.
Trial Locations
- Locations (2)
Johns Hopkins University
šŗšøBaltimore, Maryland, United States
Fort Belvoir CH
šŗšøFort Belvoir, Virginia, United States