Abstract: An exemplary electrode lead includes a flexible body formed of a flexible insulating material, an electrode contact disposed on an outer surface of the flexible body, and a strand that includes a first end portion, a second end portion, and a loop that is provided between the first end portion and the second end portion and that protrudes from the flexible body. The loop is configured to engage with a fixing element that is configured to attach the loop to tissue within a recipient to secure the electrode lead within the recipient. Corresponding methods for manufacturing an electrode lead are also described.

Abstract: Devices and methods are disclosed for a stimulator unit in a medical device, such as an implantable component of a cochlear implant. In embodiments, the stimulator unit comprises a bottom wall configured to be substantially contacting a temporal bone of a recipient, and a top wall positioned opposite the bottom wall, wherein a cross section of the stimulator unit has an outer profile substantially parallel to the bottom wall and the top wall.

Abstract: Devices and methods are disclosed for a stimulator unit in a medical device, such as an implantable component of a cochlear implant. In embodiments, the stimulator unit comprises a bottom wall configured to be substantially contacting a temporal bone of a recipient, and a top wall positioned opposite the bottom wall, wherein a cross section of the stimulator unit has an outer profile substantially parallel to the bottom wall and the top wall.

Abstract: An exemplary electrode lead includes a flexible body formed of a flexible insulating material, an electrode contact disposed on an outer surface of the flexible body, and a strand that includes a first end portion, a second end portion, and a loop that is provided between the first end portion and the second end portion and that protrudes from the flexible body. The loop is configured to engage with a fixing element that is configured to attach the loop to tissue within a recipient to secure the electrode lead within the recipient. Corresponding methods for manufacturing an electrode lead are also described.

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: Devices and methods are disclosed for a stimulator unit in a medical device, such as an implantable component of a cochlear implant. In embodiments, the stimulator unit comprises a bottom wall configured to be substantially contacting a temporal bone of a recipient, and a top wall positioned opposite the bottom wall, wherein a cross section of the stimulator unit has an outer profile substantially parallel to the bottom wall and the top wall.

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: Devices and methods are disclosed for a stimulator unit in a medical device, such as an implantable component of a cochlear implant. In embodiments, the stimulator unit comprises a bottom wall configured to be substantially contacting a temporal bone of a recipient, and a top wall positioned opposite the bottom wall, wherein a cross section of the stimulator unit has an outer profile substantially parallel to the bottom wall and the top wall.

Abstract: A electrode array for a medical and in particular cochlear implant and a method of manufacturing such an array is described in which carbon nanotubes are deposited onto electrode contacts at temperatures below the service temperature of a carrier material supporting the electrode contacts. This allows the carrier material, which may be a polymer like silicone, to be molded about the electrode contacts before they are coated with carbon nanotubes to allow for the provision of smaller and more highly concentrated electrodes.

Abstract: A method for joining a first component to a second component with a brazing material, the first component including an aperture for receiving the second component. The method includes positioning the second component within the first component via the aperture to form a gap between an inner surface of the first component and an outer surface of the second component, introducing by capillary action brazing material into the gap between the first component and the second component, and forming a join between the first and second component upon cooling of the brazing material introduced by capillary action. According to this first aspect of the present invention, the capillary flow of brazing material in the gap is diverted via a capillary flow diverter located in the gap between the first and second component.