Abstract: An implantable vestibular prosthesis system includes an implantable optical array of optical sources configured for engagement with a disordered vestibular system to deliver optical stimulation signals to target stimulation locations within the bony or membranous labyrinth of the disordered vestibular system. An implantable stimulation processor is connected to the optical array and configured to produce the optical stimulation signals with the optical sources so as to generate directional pressure waves within the endolymphatic fluid directed to the target stimulation locations for vestibular perception by residual vestibular functioning.

Abstract: An implantable vestibular prosthesis system includes an implantable optical array of optical sources configured for engagement with a disordered vestibular system to deliver optical stimulation signals to target stimulation locations within the bony or membranous labyrinth of the disordered vestibular system. An implantable stimulation processor is connected to the optical array and configured to produce the optical stimulation signals with the optical sources so as to generate directional pressure waves within the endolymphatic fluid directed to the target stimulation locations for vestibular perception by residual vestibular functioning.

Abstract: Arrangements are described for fitting a cochlear implant to a recipient patient. An acoustic stimulus is delivered to an ear of the patient over a range of acoustic frequencies. A baseline acoustic transfer function resulting from the acoustic stimulus is measured using a response sensor configured to sense pressure response characteristics in the middle ear. And a maximum comfortable level (MCL) of stimulation is determined for at least one stimulation contact in the electrode array, based on performing an electrically evoked measurement to an electric stimulation signal and using the response sensor to measure a modified acoustic transfer function. The modified acoustic transfer function is compared to the baseline acoustic transfer function to determine when a stapedius reflex response occurs and identify the MCL.

Abstract: An implantable vestibular prosthesis system includes an implantable optical array of optical sources configured for engagement with a disordered vestibular system to deliver optical stimulation signals to target stimulation locations within the bony or membranous labyrinth of the disordered vestibular system. An implantable stimulation processor is connected to the optical array and configured to produce the optical stimulation signals with the optical sources so as to generate directional pressure waves within the endolymphatic fluid directed to the target stimulation locations for vestibular perception by residual vestibular functioning.

Abstract: Arrangements are described for fitting a cochlear implant to a recipient patient. An acoustic stimulus is delivered to an ear of the patient over a range of acoustic frequencies. A baseline acoustic transfer function resulting from the acoustic stimulus is measured using a response sensor configured to sense pressure response characteristics in the middle ear. And a maximum comfortable level (MCL) of stimulation is determined for at least one stimulation contact in the electrode array, based on performing an electrically evoked measurement to an electric stimulation signal and using the response sensor to measure a modified acoustic transfer function. The modified acoustic transfer function is compared to the baseline acoustic transfer function to determine when a stapedius reflex response occurs and identify the MCL.