Abstract: An implantable device for mounting to a patient's bone includes a housing and at least one osseointegrating protuberance. The housing includes a surface having an abutting portion configured to abut the bone when the housing is implanted in the patient, the abutting portion defining a housing axis orthogonal to the surface. The at least one osseointegrating protuberance: extends from the surface of the housing; is adapted to abut the patient's bone; and has a substantially smooth shaft.

Abstract: A drill bit for drilling into bone, including at least a first, second and third longitudinally extending substantially straight flute blades, wherein the drill bit has an extrapolated outer profile established by rotation of the first, second and third flute blades 360 degrees about a longitudinal axis thereof, the extrapolated outer profile includes a first surface having tangents more perpendicular than parallel to the longitudinal axis, and the extrapolated outer profile includes a second surface having tangents more parallel than perpendicular to the longitudinal axis.

Abstract: An apparatus including an actuator and an electrode array support, wherein the apparatus is configured to insert an electrode array into a cochlea via controlled actuation of the actuator, wherein the controlled actuation is at least partially based on data that is at least partially based on electrical characteristics associated with the recipient.

Abstract: A method, including the actions of obtaining access to a virtual reality system; activating a cochlear implant such that the cochlear implant evokes a hearing percept based on first input; and receiving second input from the virtual reality system in temporal proximity with the evocation of the hearing percept based on the first input, wherein the cochlear implant evokes a hearing percept based on the first input, and the second input is correlated with the first input.

Abstract: A method including obtaining data based on a current and/or anticipated future state of a hearing prosthesis and adjusting a set gain margin of the hearing prosthesis based on the current or anticipated future state of the hearing prosthesis.

Abstract: A feedthrough for a cochlear implant or other medical device can include contacts disposed on an outer perimeter thereof. By disposing the contacts on the perimeter, the number of contacts on the feedthrough can be increased, the size of the feedthrough reduced, or both.

Abstract: An external headpiece of an implantable hearing aid system, including an RF coil, a sound processing apparatus, a battery, and a magnet configured to support the headpiece against skin of the recipient via a transcutaneous magnetic coupling with an implanted magnet implanted in a recipient, wherein a longitudinal axis of the cylindrical battery extends through the magnet.

Abstract: A device comprises a tank circuit including a parallel tank circuit and a series tank circuit. In this example, the parallel tank circuit and the series tank circuit share a capacitive component and an inductive component. The device also includes electronics, and circuitry configured to selectively couple the electronics to the parallel tank circuit for a first application and to couple the electronics to the series tank circuit for a second application.

Abstract: Presented herein are directed to techniques for using objective measurements to determine a combined efficiency of an implantable actuator and a mechanical coupling of the implantable actuator to an auditory structure of an ear of a recipient. In particular, the implantable actuator is activated so as to deliver, via the mechanical coupling, mechanical stimulation to the auditory structure to effect a pressure change in an inner ear of the recipient. At least one stimulation device, that is separate from the implantable actuator, is configured to deliver secondary stimulation to the recipient to also effect a pressure change in the inner ear of the recipient. Objective measurements are performed to intra-operatively capture auditory evoked responses of the recipient in response to the mechanical stimulation and in response to the secondary stimulation. These auditory evoked responses are analyzed to determine a vibratory coupling efficiency.

Abstract: A body worn or implantable hearing prosthesis, including a device configured to capture an audio environment of a recipient and evoke a hearing percept based at least in part on the captured audio environment, wherein the hearing prosthesis is configured to identify, based on the captured audio environment, one or more biomarkers present in the audio environment indicative of the recipient's ability to hear.

Abstract: Presented herein are non-surgical or superficial coupling apparatuses for transcutaneous bone conduction devices. A coupling apparatus comprises a drive plate configured to be detachably connected to a transcutaneous bone conduction device. The drive plate is also connected to an earhook (ear hook) configured to fit over/around a recipient's pinna (auricle) to at least partially support the drive plate. An adhesive member may also be provided to secure the drive plate to the recipient's skin.

Abstract: In a subcutaneous microphone used in medical devices, a structure is introduced that constrains the motion of the diaphragm during normal operation of the microphone. In one embodiment, a raised portion, such as a pole or pillar is placed in the chamber at the middle of the diaphragm. The raised portion may contact one or both of the bottom surface of the chamber and the underside of the membrane, and generally acts to reduce the amount of deflection experienced by the membrane.

Abstract: A method, including determining a change in an actuator impedance based on a change in an electrical property of a system of which the actuator is apart, and determining one or more system characteristics based on the change in the actuator impedance.

Abstract: Evaluating an implanted hearing prosthesis, including operating the implanted hearing prosthesis, capturing sound generated by a transducer of the prosthesis during said operation, and comparing the captured sound to a sound model.

Abstract: An apparatus for a bone conduction implant, comprising a bone fixture including a screw thread configured to screw into a skull, wherein at least a section of the screw thread is non-uniform.

Abstract: A vibrator including a housing, a transducer positioned within the housing such that there is a gap between the transducer and housing, and a damper assembly, disposed in the gap between the housing and at least a portion of the transducer, the damper assembly extending a sub-distance of the total distance of the gap.

Abstract: A method, including the actions of obtaining data based on a current and/or anticipated future wearing implementation of a hearing prosthesis, and adjusting a parameter of the hearing prosthesis based on the current or anticipated future wearing implementation of the hearing prosthesis, and evoking a hearing percept using the hearing prosthesis with the adjusted parameter.

Abstract: Embodiments are generally directed to a securable inner drug delivery plug or stopper that is configured to be inserted into, and secured (retained) within, an opening of the inner ear of an recipient. The securable inner drug delivery plug is configured to deliver drugs directly into the inner ear.

Abstract: Presented herein are implantable systems and methods for long-term delivery of treatment substance to a recipient.

Abstract: Presented herein are low-power active bone conduction devices that comprise an actuator that is subcutaneously implanted within a recipient so as to deliver mechanical output forces to hard tissue of the recipient. The low-power active bone conduction devices include an energy recovery circuit configured to extract non-used energy from the actuator and to store the non-used energy for subsequent use by the actuator. The low-power active bone conduction devices may also include a multi-bit sigma-delta converter that operates in accordance with a scaled sigma-delta quantization threshold value to convert received signals representative of sound into actuator drive signals.