Study Stopped
Following further collection and analysis of temporal binding data, we found the relationship between PSS and clinical outcomes to not be strong enough for adaptation.
Analysis of Vestibular Compensation Following Clinical Intervention for Vestibular Schwannoma
Temporal Synthesis of Vestibular and Extra-Vestibular Sensory Signals
2 other identifiers
interventional
N/A
1 country
1
Brief Summary
Multiple sensory cues are typically generated by discrete events, and while they do not reach the cerebrum simultaneously, the brain can bind them temporally if they are interpreted as corresponding to a single event. The temporal binding of vestibular and non-vestibular sensory cues is poorly understood and has not been studied in detail, despite the fact that the vestibular system operates in an inherently multimodal environment. In this study, the researchers are investigating the physiology and pathophysiology of vestibular temporal binding by studying normal subjects, patients with peripheral and central vestibular dysfunction, and patients with vestibular and cochlear signals provided by prosthetic implants in the inner ear.
Trial Health
Trial Health Score
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Started Sep 2019
Longer than P75 for not_applicable
1 active site
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Trial Relationships
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Study Timeline
Key milestones and dates
Study Start
First participant enrolled
September 5, 2019
CompletedFirst Submitted
Initial submission to the registry
December 6, 2019
CompletedFirst Posted
Study publicly available on registry
December 12, 2019
CompletedPrimary Completion
Last participant's last visit for primary outcome
December 31, 2025
CompletedStudy Completion
Last participant's last visit for all outcomes
December 31, 2025
CompletedApril 16, 2025
June 1, 2024
6.3 years
December 6, 2019
April 11, 2025
Conditions
Keywords
Outcome Measures
Primary Outcomes (4)
Changes in postural sway/balance
Measurements of postural sway during Romberg testing on floor and foam (including an extra 60s balance test during which subject stands on foam and shakes head left and right at 1hz frequency while fixating on a point a set distance away) pre \& post temporal binding adaptation (TBW \& PSS training).
baseline and post-PSS adaptation (1 hour)
Change in rapid measure of gait
This measure is scored before and after PSS adaptation in UVD (unilateral vestibular dysfunction) patients. Gait is scored by performance on a task derived from the FGA (walking 40 feet while turning the head from side to side). It is scored on a 0 to 10 visual scale and provides a rapid assessment of vestibular function pre and post adaptation.
baseline and post-PSS adaptation (1 hour)
Change in measure of inducible dizziness
Looking at the change between before and after PSS adaptation in UVD (unilateral vestibular dysfunction) patients. Inducible dizziness is the symptom severity provoked by a task derived from the FGA (walking 40 feet while turning the head from side to side). It is scored on a 0 to 10 visual scale and provides a rapid assessment of vestibular function pre and post adaptation.
baseline and post-PSS adaptation (1 hour)
Change in Point of Subjective Simultaneity (PSS)
Pre and post chronic motion-modulated stimulation in CI/VI patients - the PSS will be measured during temporal binding testing
baseline and 1 hour post 8-hour VI-CI 'physiologic' stimulation
Study Arms (5)
Normal Controls
NO INTERVENTIONnormal control subjects - no history of neurologic or inner ear disease The investigators will characterize vestibular spatial and temporal precision by calculating perceptual thresholds for vestibular (yaw rotation) stimuli in normal subjects over a wide age range. Vestibular-visual temporal binding is then performed on each subject and the relationship between the principal parameters (vestibular perceptual thresholds \[inversely related to spatial precision\] and the PSS and TBW from the temporal binding paradigm) will be examined. The investigators will collect qualitative assessments of dizziness/disbalance (DHI: dizziness handicap index) and quantitative measurements of balance and vestibular function (FGA: functional gait analysis, postural sway, and standard rotational testing - VOR gain, time constant, asymmetry).
Central Vestibular Dysfunction
NO INTERVENTIONMigraine and Vestibular Migraine patients The investigators intend to evaluate vestibular (yaw rotation) - visual temporal binding in people with a wide range of motion sickness sensitivities (as quantified with standard questionnaires), including normal subjects, people with migraine and with vestibular migraine.
Peripheral Vestibular Dysfunction
NO INTERVENTIONVestibular Schwannoma patients The basic approach is to characterize the precision of their vestibular information (i.e., perceptual thresholds for spatial precision), and their temporal binding characteristics for vestibular (yaw rotation)-visual inputs, in three states: pre-op, sub-acute post-op (2-6 weeks), and chronic post-op (6 months+). At each state the investigators will also assess the quality of their vestibular-mediated behaviors through questionnaires (e.g. DHI), postural sway, functional gait analysis, and standard rotational testing (VOR gain, time constant, and asymmetry).
Implant Subjects
EXPERIMENTALCochlear Implant (CI)/Vestibular Implant (VI) patients A causative role for vestibular precision in temporal binding will be investigated in the VI patients, since the noise characteristics of the vestibular channel will be varied and to determine how this affects thresholds and temporal binding. As part of a second aim, the investigators will use VI and CI prosthetic signals in patients who have never received them together to see how the brain process sensory cues to which it is essentially naïve. Finally, after the acute experiments the investigators will provide 8 hours of 'physiologic' VI and CI stimulation by turning both implants on, sound modulates activity in the CI as usual, and angular head motion modulates activity in the VI while the subject actively explores the hospital environment.
Post-op Vestibular Schwannoma patients
EXPERIMENTALVestibular Schwannoma patients who are 6mos+ post-surgery (for removal of vestibular schwannoma, resulting in 8th nerve being cut \& complete loss of peripheral vestibular signals from affected ear). While many post-op VS patients recover well, some continue to have persistent problems with balance and symptoms of dizziness. This study will explore how/whether PSS adaptation may improve vestibular clinical outcomes such as improved gait and dizziness symptoms following gait with horizontal (yaw) head motion.
Interventions
After the PSS and TBW are calculated with the standard TOJ paradigm, 100 training trials are provided where the SOA is set to a PSS slightly greater than what was the mean calculated for normal subjects, with the goal of shifting the PSS in a direction associated with better clinical vestibular parameters and vestibular precision measurements (e.g. standard rotational testing VOR time constant, lower DHI, higher FGA score) . Then the TOJ task will be repeated but every 10 testing trials will be followed by 10 training trials (SOA = PSS desired or mean normal PSS), and this pattern will be repeated 10 times to 100 more training trials interspersed with the Post TOJ data. Subjects will respond after all trials and testing and training will not be distinguished. After this is completed, the new PSS and TBW are calculated. Sham PSS training will be identical to the above except that the 'training' period will consist of random SOAs rather than a series of fixed SOAs.
The adaptation will utilize the same approach used in non-implanted patients. The investigators will provide a repeated, fixed SOA with either the CI or VI leading the other stimulus by 220 ms. After the training period, which will match the number of stimuli pairs provided to our normal vestibular-auditory control subjects undergoing PSS adaptation, the TOJ study is repeated to recalculate the PSS and TBW.
To provide 8 hours of 'physiologic' CI and VI inputs during normal activities, the investigators will employ standard motion-modulated stimulation with the VI. This requires pre-adaptation to a 200 pps tonic stimulation rate (to emulate the push-pull design of the native vestibular system allowing modulating stimulation upward or downward with opposite directions of motion). The three electrodes are connected to the head-mounted prosthetic circuit, which consists of three angular velocity sensors (one aligned with the sensitive axis of each canal) such that head rotations in the plane of the given canal modulate the stimulation rate of the corresponding electrode, upward (for ipsi) or downward (for contralateral) head rotations, thereby simulating normal canal-mediated modulations.
Eligibility Criteria
You may qualify if:
- Normal subjects
- normal vestibular-oculomotor exams
- normal low-frequency standard rotational testing
- normal hearing
- Migraine
- meets International Headache Society (IHS) criteria for migraine with or without aura
- tested more than 2 weeks after most recent migraine headache
- Vestibular Migraine
- meets Barany Society criteria for vestibular migraine, which includes:
- episodic vestibular symptoms that occur with headaches that meet the IHS criteria for migraine
- tested more than 2 weeks after most recent migraine headache or vestibular episode
- Vestibular Schwannoma
- existence of unilateral vestibular schwannoma (pre \& post clinical intervention e.g. surgical resection)
- must plan to have clinical intervention such as sub-occipital surgical approach with complete sectioning of the vestibular nerve
- rotational testing to assess pre-surgical vestibular function
- +8 more criteria
You may not qualify if:
- Normal subjects
- history of otologic or neurologic disease
- on vestibular suppressant medication (benzodiazepine, antihistamine, anticholinergic)
- pregnant or recently (\<6mos) pregnant
- Migraine
- history of vestibular symptoms (other than motion sickness)
- evidence of other neurologic or otologic dysfunction
- on migraine prophylactic medications
- on vestibular suppressant medication (benzodiazepine, antihistamine, anticholinergic)
- Vestibular Migraine (VM)
- on migraine prophylactic medication
- on vestibular suppressant medication (benzodiazepine, antihistamine, anticholinergic)
- Vestibular Schwannoma
- other otologic disease (other than presbycusis) or any neurologic disease (other than migraine)
- on vestibular suppressant medication (benzodiazepine, antihistamine, anticholinergic)
Contact the study team to confirm eligibility.
Sponsors & Collaborators
Study Sites (1)
Massachusetts Eye and Ear Infirmary
Boston, Massachusetts, 02114, United States
MeSH Terms
Conditions
Condition Hierarchy (Ancestors)
Study Design
- Study Type
- interventional
- Phase
- not applicable
- Allocation
- NON RANDOMIZED
- Masking
- SINGLE
- Who Masked
- PARTICIPANT
- Purpose
- BASIC SCIENCE
- Intervention Model
- PARALLEL
- Sponsor Type
- OTHER
- Responsible Party
- PRINCIPAL INVESTIGATOR
- PI Title
- Associate Professor, Otolaryngology and Neurology; Director, Jenks Vestibular Laboratory
Study Record Dates
First Submitted
December 6, 2019
First Posted
December 12, 2019
Study Start
September 5, 2019
Primary Completion
December 31, 2025
Study Completion
December 31, 2025
Last Updated
April 16, 2025
Record last verified: 2024-06