Abstract: A sound processor, for use with a cochlear implant, that includes directional microphone capabilities.

Abstract: There is provided a hearing assistance system comprising an auditory prosthesis device for neural stimulation of a patient's hearing at one of the patient's ears and a hearing aid for acoustic stimulation of the patient's hearing at the same one or the other one of the patient's ears. The system includes at least one microphone for capturing an input audio signal from ambient sound; and a fundamental frequency estimation unit for estimating the fundamental frequency and at least part of its harmonics at least for voiced segments of the input audio signal and for supplying a corresponding output signal.

Abstract: A modular biomedical implant includes a processor, an electrode array, and a cable. The first end of the cable is attached to the electrode array and a second end of the cable terminates in a first array of contacts. A second array of contacts is electrically connected to the processor. A separate anisotropic conductor is disposed between the first array of contacts and the second array of contacts and forms electrical connections between the first array of contacts and the second array of contacts. A method for replacing a processor of a modular biomedical implant is also provided.

Abstract: A cochlear lead includes a plurality of electrodes configured to stimulate an auditory nerve from within a cochlea and a flexible body supporting the plurality of electrodes along a length of the flexible body. A stiffening element is slidably encapsulated within the flexible body, the stiffening element extending past a most distal electrode at the tip of the cochlear lead, wherein a distal portion of the stiffening element plastically deforms upon insertion into a curved portion of the cochlea.

Abstract: An exemplary system includes 1) an electro-acoustic stimulation (“EAS”) sound processor configured to be located external to a patient, 2) a cochlear implant communicatively coupled to the EAS sound processor and configured to be implanted within the patient, 3) an electrode array communicatively coupled to the cochlear implant and configured to be located within a cochlea of the patient, and 4) a receiver communicatively coupled to the EAS sound processor and configured to be in communication with an ear of the patient. The EAS sound processor directs at least one of the cochlear implant and the receiver to apply stimulation to the patient, records an evoked response that occurs in response to the stimulation, and performs a predetermined action in accordance with the evoked response. Corresponding systems and methods are also disclosed.

Abstract: Sound processors and systems including sound processors are disclosed.

Abstract: In one example, a cochlear lead includes a flexible body, an array of electrodes in the flexible body, and a plurality of wires passing along the array of electrodes. The plurality of wires includes a flexural geometry between each pair of adjacent electrodes and a substantially straight geometry over the electrodes. A method for forming an electrode array with a reduced apical cross section is also provided.

Abstract: An exemplary method includes 1) detecting, by an auditory prosthesis configured to be implanted in a patient, a communicative coupling of a sound processor to the auditory prosthesis, the sound processor configured to be located external to the patient, and 2) logging, by the auditory prosthesis, data associated with an operation of the sound processor while the sound processor is communicatively coupled to the auditory prosthesis. Corresponding auditory prostheses and systems are also disclosed.

Abstract: An auditory prosthesis device for neural stimulation of a patient's hearing having an audio signal input device; a sound processor for generating a neural stimulation signal; and an implantable stimulation assembly having plural stimulation channels for stimulation of the patient's hearing, the sound processor having a filter bank for dividing the input audio signal into plural analysis channels, each containing a frequency domain signal representative of a portion of the audio signal, a signal level determiner for each analysis channel for analyzing the respective frequency domain signal, a neural stimulation signal generator for each analysis channel, a mapping unit for allocating the analysis channels to the stimulation channels according to an adjustable mapping scheme, and a control unit for controlling the mapping unit such that a standard mapping scheme is used in a standard operation mode and a low bandwidth mapping scheme is used in a low bandwidth operation mode.

Abstract: Exemplary insertion tools for facilitating insertion of an electrode array into a bodily orifice include a stylet assembly having a stylet configured to be inserted into a lumen of the electrode array, a slide assembly configured to at least partially house the stylet assembly, and a handle assembly configured to engage at least a portion of the slide assembly. The slide assembly may be configured to selectively disengage from the handle assembly. The stylet assembly may be configured to selectively disengage from the slide assembly while the stylet is still inserted into the lumen of the electrode array. Corresponding systems and methods are also described.

Abstract: An exemplary cochlear implant includes a communication facility configured to receive at least a first data word and a second data word in series from a sound processor by way of a forward-telemetry link and a processing facility communicatively coupled to the communication facility and configured to 1) use the first data word to dynamically determine an address associated with an electrode by way of which a stimulation pulse is to be applied during a time slot of a stimulation frame and 2) use the second data word to determine an amplitude of the stimulation pulse that is to be applied by way of the electrode during the time slot of the stimulation frame. Corresponding systems and methods are also disclosed.

Abstract: Printed circuit board apparatus with electromagnetic interference shields and methods of making the same.

Abstract: Sound processor housings, sound processors and systems including sound processors are disclosed.

Abstract: An exemplary cochlear electrode array includes a flexible body having a pre-curved spiral shape so as to conform with the curvature of a human cochlea, a plurality of stimulation electrode contacts spaced apart along a first side of the flexible body, a bundle of wires embedded within the flexible body for electrically connecting the electrode contacts to at least one stimulation signal source, at least one inflatable portion extending along at least part of the length of the flexible body, the at least one inflatable portion being adapted to straighten the flexible body, starting from the pre-curved shape, prior to insertion into the cochlea upon being inflated by being filled with gas or liquid, and to allow the flexible body to gradually reassume its pre-curved shape during insertion of the flexible body into the cochlea upon gradual withdrawal of gas or liquid from the at least one inflatable portion.

Abstract: An exemplary system includes a sound processor that 1) determines a relative importance of performance versus power conservation for an auditory prosthesis, 2) determines, in accordance with the determined relative importance of performance versus power conservation, a current steering range for a stimulation channel defined by first and second physical electrodes communicatively coupled to the auditory prosthesis, the current steering range centered about a midpoint of the stimulation channel; and 3) directs the auditory prosthesis to apply electrical stimulation representative of audio content having a frequency included in a frequency band associated with the stimulation channel in accordance with the determined current steering range.

Abstract: An implantable microphone, comprising a rigid housing, a sensor membrane for exposure to surrounding soft tissue, the sensor membrane being arranged to seal an opening of the housing, a transducer for generating an output signal corresponding to the deflection of the sensor membrane, and a compliant suspension arrangement located opposite to the sensor membrane for being exposed to soft tissue and for supporting the housing on soft tissue in a manner that the housing is moveable relative to said soft tissue upon acceleration of the housing and the soft tissue, the suspension arrangement comprising means for adjusting the spring constant of the suspension arrangement when the microphone is implanted.

Abstract: An exemplary system includes 1) a stimulation management facility configured to direct an electro-acoustic stimulation (“EAS”) system to concurrently apply acoustic stimulation to a patient by way of a loudspeaker and electrical stimulation to the patient by way of an electrode located within a cochlea of the patient during a fitting session, and 2) a fitting facility communicatively coupled to the stimulation management facility and configured to detect, during the fitting session, an interaction between the acoustic stimulation and the electrical stimulation, and set, during the fitting session, one or more control parameters governing an operation of the EAS system based on the detected interaction. Corresponding systems and methods are also disclosed.

Abstract: An exemplary system for facilitating binaural hearing by a cochlear implant patient includes 1) a spectral analysis facility configured to divide a first audio signal presented to a first ear of the patient and a second audio signal presented to a second ear of the patient into first and second sets of analysis channels, respectively, and 2) a processing facility configured to process acoustic content contained in a first analysis channel included in the first set of analysis channels and acoustic content contained in a second analysis channel included in the second set of analysis channels, mix the processed acoustic content contained in the first and second analysis channels, and direct a cochlear implant to apply electrical stimulation representative of the mixed acoustic content to the first ear by way of a stimulation channel that corresponds to the first analysis channel.

Abstract: A system for retaining a magnet in a cochlear implant, comprising a retainer embedded within an encapsulant of the cochlear implant, and a magnet case engaged with the retainer. A retainer for retaining a magnet within a cochlear implant comprising a number of first fasteners that couple with a number of corresponding second fasteners of a magnet case hermetically sealing the magnet, and a number of supports embedded within an encapsulant of the cochlear implant.

Abstract: A method for forming a cochlear electrode array with a plurality of electrodes which are spaced so as to stimulate sites within a cochlea includes shaping a sheet of electrically conductive material to form a support structure and a plurality of electrodes, in which the electrodes are tethered to the support structure at the spacing of the cochlear electrode array. A cochlear lead includes a flexible body that has frictional characteristics that vary about its circumference. A cochlear lead includes a flexible body with a first region and a second region with different surface textures. This generates differential sliding forces during insertion of the cochlear lead which influence a motion of the cochlear lead during insertion. The cochlear lead having an electrode array with varying stiffness along its length is also provided.