Electrical Stimulation of the Peripheral Vestibular System in Order to Develop a Vestibular Implant

Summary

This study has three main goals (1) to explore the effects of electrical stimulations of the peripheral vestibular system(2) to assess the potential of this technique to rehabilitate basic vestibular functions in patients with severe bilateral vestibulopathy, and (3) to take advantage of the unprecedented experimental paradigm provided by the vestibular implant to increase our fundamental knowledge on the contribution of peripheral vestibular function to posture, gait and higher order sensory functions, mechanisms that remain poorly understood.

Conditions

• Vestibular Disorder
• Bilateral Vestibulopathy
• Bilateral Vestibular Loss

Interventions

PROCEDURE

Electrical stimulation of the vestibular system

Patients are implanted with a modified cochlear implant (CI) which comprises one to three extracochlear electrodes that are placed in the proximity of vestibular afferents (i.e., vestibular nerves or the ampullae of each semicircular canal), and an intracochlear array. Trains of electrical stimulation in the form of charge-balanced, biphasic pulses can be delivered through each of the implanted electrodes (cochlear or vestibular) and modulated via computer-controlled signals, audio signals (captured with a microphone) or by signals captured by head-mounted motion sensors.

PROCEDURE

Electrical stimulation of the auditory system

A cochlear implant (CI) is a device providing a sense of sound to a person who suffers from severe to profound sensorineural hearing loss. A CI comprises the following parts, a microphone (capturing the sound from the environment), a speech processor (receiving and encoding the sounds captured by the mircophone), a transmitter-receiver antenna pair (transmitting the information from the external to the implanted components), an implanted stimulator (converting the signal into a tonotopically arranged set of electrical pulses) and an electrode array inserted in the cochlea that will deliver the electrical pulses to different portions of the auditory nerve. Trains of electrical stimulation in the form of charge-balanced, biphasic pulses can be delivered through each of the electrodes in the cochlear array and modulated via computer-controlled signals or audio signals (captured with a microphone).

DIAGNOSTIC_TEST

Bilateral vestibulopathy Patients (BV)

Diagnosis established on the basis of the consensus document of the Classification Committee of the Bárány Society (Strupp et al., Journal of Vestibular Research, vol. 27, no. 4, pp. 177-189, 2017).

DIAGNOSTIC_TEST

Unilateral vestibulopathy Patients (UV)

Patients with documented diagnosis of unrecovered unilateral vestibulopathy, consistent with the current classification of vestibular disorders of the Bárány Society (www.jvr-web.org/ICVD.html).

Sponsors & Collaborators

• University of Geneva, Switzerland

  collaborator OTHER

• Maastricht University Medical Center

  collaborator OTHER

• Massachusetts Eye and Ear Infirmary

  collaborator OTHER

• Nils Guinand

  lead OTHER

Principal Investigators

• Nils Guinand, MD · University Hospital, Geneva

Study Design

Allocation

NON_RANDOMIZED

Purpose

BASIC_SCIENCE

Masking

NONE

Model

PARALLEL

Eligibility

Min Age

18 Years

Sex

ALL

Healthy Volunteers

Yes

Timeline & Regulatory

Start

2011-12-01

Primary Completion

2023-12-31

Completion

2023-12-31

Countries

• Switzerland

Study Locations