Abstract: A magnetic alignment system that can form part of a cochlear implant system. The magnetic alignment system prevents substantial movement of a magnet of an implanted component during an MRI procedure or allows for easy removal of the magnet to facilitate the MRI procedure.

Abstract: Systems and methods are disclosed for insertion of implantable medical devices, and more particularly to insertion of implantable devices with a vibrating insertion tool. More specifically, a vibrating insertion tool is described, the insertion tool comprising an insertion tool controllable by a user to support and guide movement of an object, the insertion tool comprising an elongate arm having a proximal end region and a distal end region, the distal end region having a receiving region, a user-controllable vibration source for generating vibrations in accordance with a selected vibration profile, and an elongate rigid spine, connected to the vibration source and the receiving region, configured to deliver the vibrations to the receiving region.

Abstract: A magnetic alignment system that can form part of a cochlear implant system. The magnetic alignment system prevents substantial movement of a magnet of an implanted component during an MRI procedure or allows for easy removal of the magnet to facilitate the MRI procedure.

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: An insertion tool having an insertion guide tube that maintains a perimodiolar or other pre-curved electrode assembly in a substantially straight configuration while preventing the electrode assembly from twisting in response to stresses induced by the bias force which urges the assembly to return to its pre-curved configuration. This generally ensures that when the electrode assembly is deployed from the distal end of the insertion guide tube, the electrode assembly and insertion guide tube have a known relative orientation.

Abstract: An insertion tool having an insertion guide tube that maintains a perimodiolar or other pre-curved electrode assembly in a substantially straight configuration while preventing the electrode assembly from twisting in response to stresses induced by the bias force which urges the assembly to return to its pre-curved configuration. This generally ensures that when the electrode assembly is deployed from the distal end of the insertion guide tube, the electrode assembly and insertion guide tube have a known relative orientation.

Abstract: Presented herein are intra-operative techniques for setting the angular insertion depth of a stimulating assembly during implantation into a recipient's cochlea. In certain embodiments, the angular insertion depth is monitored in real-time and advancement of the stimulating assembly is terminated when a selected angular insertion depth is achieved. In further embodiments, a linear insertion depth that corresponds to a selected angular insertion depth is intra-operatively calculated and advancement of the stimulating assembly is terminated when the calculated linear insertion depth is achieved.

Abstract: Embodiments presented herein are generally directed to a stimulating assembly of a cochlear implant. The stimulating assembly comprises one or more fixation features configured to be inserted into a recipient's cochlea via an opening in the cochlea. Following insertion, the one or more fixation features are configured to engage an inner surface of the cochlea adjacent to the opening to prevent movement of the stimulating assembly out of the cochlea through the opening.

Abstract: A vestibular stimulation array is disclosed having one or more separate electrode arrays each operatively adapted for implantation in a semicircular canal of the vestibular system, wherein each separate electrode array is dimensioned and constructed so that so that residual vestibular function is preserved. In particular, the electrode arrays are dimensioned such that the membranous labyrinth is not substantially compressed. Furthermore, the electrode array has a stop portion to limit insertion of the electrode array into the semi-circular canal and is stiff enough to avoid damage to the anatomical structures.

Abstract: Embodiments presented herein are generally directed to a stimulating assembly of a cochlear implant. The stimulating assembly comprises one or more fixation features configured to be inserted into a recipient's cochlea via an opening in the cochlea. Following insertion, the one or more fixation features are configured to engage an inner surface of the cochlea adjacent to the opening to prevent movement of the stimulating assembly out of the cochlea through the opening.

Abstract: A magnetic alignment system that can form part of a cochlear implant system. The magnetic alignment system prevents substantial movement of a magnet of an implanted component during an MRI procedure or allows for easy removal of the magnet to facilitate the MRI procedure.

Abstract: Presented herein are intra-operative techniques for setting the angular insertion depth of a stimulating assembly during implantation into a recipient's cochlea. In certain embodiments, the angular insertion depth is monitored in real-time and advancement of the stimulating assembly is terminated when a selected angular insertion depth is achieved. In further embodiments, a linear insertion depth that corresponds to a selected angular insertion depth is intra-operatively calculated and advancement of the stimulating assembly is terminated when the calculated linear insertion depth is achieved.

Abstract: Disclosed herein are electrode assemblies configured for use with a medical device, such as an implantable medical device. In one aspect, the disclosed electrode assembly includes at least a first electrode and a second electrode, each of which is configured to deliver electrical stimuli to a body part of a recipient. The electrode assembly also includes a first wire that is attached at one end to the first electrode and comprises a conductor that has a first diameter, and a second wire that is attached to the second electrode and comprises a conductor that has a second diameter, with the first diameter being greater than the second diameter. Additionally, each of the first wire and the second wire pass through a proximal end of the assembly is configured to connect the one of the electrodes to a stimulation unit of a medical device.

Abstract: A vestibular stimulation array is disclosed having one or more separate electrode arrays each operatively adapted for implantation in a semicircular canal of the vestibular system, wherein each separate electrode array is dimensioned and constructed so that so that residual vestibular function is preserved. In particular, the electrode arrays are dimensioned such that the membranous labyrinth is not substantially compressed. Furthermore, the electrode array has a stop portion to limit insertion of the electrode array into the semi-circular canal and is stiff enough to avoid damage to the anatomical structures.

Abstract: A magnetic alignment system that can form part of a cochlear implant system. The magnetic alignment system prevents substantial movement of a magnet of an implanted component during an MRI procedure or allows for easy removal of the magnet to facilitate the MRI procedure.

Abstract: A magnetic alignment system that can form part of a cochlear implant system. The magnetic alignment system prevents substantial movement of a magnet of an implanted component during an MRI procedure or allows for easy removal of the magnet to facilitate the MRI procedure.

Abstract: Presented herein are echo location techniques to obtain information about an implantable component of a hearing prosthesis relative to a recipient's tissue. The hearing prosthesis may comprise an elongate stimulating assembly configured to be implanted in a recipient's where an echo transmitter is disposed in the stimulating assembly. The echo transmitter is configured to emit an energy pulse within the recipient and an echo receiver disposed in the stimulating assembly is configured to detect a portion of the energy pulse reflected from tissue of the recipient.

Abstract: A vestibular stimulation array is disclosed having one or more separate electrode arrays each operatively adapted for implantation in a semicircular canal of the vestibular system, wherein each separate electrode array is dimensioned and constructed so that so that residual vestibular function is preserved. In particular, the electrode arrays are dimensioned such that the membranous labyrinth is not substantially compressed. Furthermore, the electrode array has a stop portion to limit insertion of the electrode array into the semi-circular canal and is stiff enough to avoid damage to the anatomical structures.

Abstract: Embodiments presented herein are generally directed to a stimulating assembly of a cochlear implant. The stimulating assembly comprises one or more fixation features configured to be inserted into a recipient's cochlea via an opening in the cochlea. Following insertion, the one or more fixation features are configured to engage an inner surface of the cochlea adjacent to the opening to prevent movement of the stimulating assembly out of the cochlea through the opening.

Abstract: Presented herein are echo location techniques to obtain information about an implantable component of a hearing prosthesis relative to a recipient's tissue. The hearing prosthesis may comprise an elongate stimulating assembly configured to be implanted in a recipient's where an echo transmitter is disposed in the stimulating assembly. The echo transmitter is configured to emit an energy pulse within the recipient and an echo receiver disposed in the stimulating assembly is configured to detect a portion of the energy pulse reflected from tissue of the recipient.