Analysis of Vestibular Compensation Following Clinical Intervention for Vestibular Schwannoma

Mass Eye and Ear

Status

Withdrawn

Conditions

Vestibular Migraine

Vestibular Schwannoma

Dizziness

Migraine

Motion Sickness

Vestibular Disorder

Treatments

Behavioral: Temporal Binding Adaptation - PSS training

Behavioral: Chronic Motion-modulated Stimulation

Behavioral: Temporal Binding Adaptation - PSS adaptation with VI stimulation

Study type

Interventional

Funder types

Other

NIH

Identifiers

NCT04196933

2018P003117

1R01DC017425-01 (U.S. NIH Grant/Contract)

Details and patient eligibility

About

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.

Full description

Multiple sensory cues are generated by discrete events (e.g., the vestibular-visual signals after hitting a pothole) and while they do not reach the cerebrum simultaneously, the brain can synthesize them if they are interpreted as corresponding to a single event. This is critical because the central representation of an event is improved if two or more relevant cues are integrated but conversely is degraded if unrelated inputs are synthesized. Little research has focused on temporal binding of vestibular signals with other sensory cues, even though the vestibular system operates in an inherently multimodal environment, and virtually nothing is known about temporal binding abnormalities in patients with peripheral or central vestibular disorders. The investigators will use psychophysical tests (quantifying the PSS [point of subjective simultaneity] and TBW [temporal binding window]) to study vestibular temporal binding in normal people, patients with combined vestibular and cochlear prostheses, and patients with peripheral or central vestibular dysfunction. The researchers will investigate two fundamental aspects of temporal binding: its dependence on signal precision and adaptation driven by habitual exposure to sensory patterns. Furthermore, the researchers will investigate how and why temporal binding differs from normal in patients with peripheral and central vestibular dysfunction.

Sex

All

Ages

8 to 80 years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

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
audiogram
brain MRI consistent with vestibular schwannoma
audiography in each ear

Vestibular (VI) and Cochlear (CI) Implant subjects

scheduled for CI surgery because of deafness
minimum 5 year history of documented absence of auditory and vestibular function, based on review of their audiograms and vestibular tests
specific vestibular criteria: peak ice water caloric response of less than 3deg/s for each ear; yaw VOR time constant <3s and gain <0.25; and reduced head impulse gain (<0.25) for all canal planes
specific audiographic criteria: 80dB or greater sensorineural hearing loss in both ears

Exclusion criteria

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)

other neurologic or otologic dysfunction as defined above except for central eye movement findings that are consistent with VM and therefore not exclusionary.
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)

Trial design

Primary purpose

Basic Science

Allocation

Non-Randomized

Interventional model

Parallel Assignment

Masking

Single Blind

0 participants in 5 patient groups

Normal Controls

No Intervention group

Description:

normal 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 Intervention group

Description:

Migraine 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 Intervention group

Description:

Vestibular 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

Experimental group

Description:

Cochlear 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.

Treatment:

Behavioral: Temporal Binding Adaptation - PSS adaptation with VI stimulation

Behavioral: Chronic Motion-modulated Stimulation

Post-op Vestibular Schwannoma patients

Experimental group

Description:

Vestibular 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.

Treatment:

Behavioral: Temporal Binding Adaptation - PSS training

Trial contacts and locations

Data sourced from clinicaltrials.gov

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