Abstract: The invention is directed to an implanted microphone having reduced sensitivity to vibration. In this regard, the microphone differentiates between the desirable and undesirable vibration by utilizing at least one motion sensor to produce a motion signal when an implanted microphone is in motion. This motion signal is used to yield a microphone output signal that is less vibration sensitive. In a first arrangement, the motion signal may be processed with an output of the implantable microphone transducer to provide an audio signal that is less vibration-sensitive than the microphone output alone. Specifically, the motion signal may be scaled to match the motion component of the microphone output such that upon removal of the motion signal from the microphone output, the remaining signal is an acoustic signal.

Abstract: An apparatus for imparting low amplitude vibrations to at least one tooth in a human head having a cochlea to facilitate hearing via a dental bone conduction pathway includes an extraoral transmitter, a band at least substantially surrounding and adhesively secured to at least one tooth, and a receiver assembly. The transmitter is configured to detect ambient sounds, and to generate and wirelessly transmit audio signals corresponding to the detected ambient sounds. The receiver assembly is removably coupleable to the band and configured to receive the audio signals from the transmitter, and to transduce the audio signals into vibrations that are conducted to the cochlea via the dental bone conduction pathway.

Abstract: A middle ear transducer arrangement is described for engaging a round window membrane of a patient cochlea. A mechanical transducer is surgically implantable into a fixed position in the round window niche of the patient cochlea adjacent to the round window membrane. A drive face on the outer surface of the transducer has a diameter less than half the diameter of the round window membrane. The fixed position of the transducer engages the drive face against a side section of the round window membrane without engaging the center point to generate an acoustic stimulation signal for perception as sound.

Abstract: The present invention relates to recipient customization of a bone conducting hearing device. Customization of the bone conducting hearing device may include attaching the bone conducting hearing device to a recipient, establishing communication between the hearing device and an external device, generating at least one control setting with the external device, and storing the at least one control setting in a memory device in the hearing device.

Abstract: A transducer comprising a main and an auxiliary diaphragm. Each of these diaphragms are coupled to opposite sides of a central shaft located internal to the transducer. Further, the diaphragms may have similar thicknesses and areas. A difference in the pressure internal to the transducer and external to the transducer may result in a force being exerted onto the diaphragm on each side. These forces are transferred from the diaphragms to the central shaft where they may cancel out each other.

Abstract: A multi-mode hearing prosthesis for enhancing the hearing of a recipient, comprising: a sound input element configured to receive a sound signal component; a frequency spectral analysis module configured to analyze the sound signal component and to categorize the component into at least a high- or lower-frequency component; a bone conduction processor configured to generate bone conduction stimulation signals from at least one of said high- and lower-frequency component for bone conduction stimulation of the recipient's skull; and a second stimulation processor configured to generate auditory stimulation signals from at least one of said high- and lower-frequency components for stimulating the recipient.

Abstract: The present invention relates to implantable medical devices for improving sound perception by subjects with conductive or mixed conductive/sensorineural hearing loss. In particular, the present invention provides methods and devices for vibrating the skull of a hearing impaired subject.

Abstract: A method and device for connecting a bone conductor transducer contained in a housing to the skull bone for the transmission of vibrations characterized by, that the housing has at least one surface, which is placed against the bottom plane of a recess shaped in the temporal bone with a static force exceeding the dynamic signal forces.

Abstract: An implantable fixation assembly (30) for removably securing a (medical) device in a human body is disclosed. The assembly includes: an anchor portion (1) securable to bone; a pair of spaced apart legs (15), at least one leg (15) being resiliently flexible, the ends (15a) of the legs (15) attached to the anchor portion (1); a clamp portion (2) attached towards or at the ends (15a) of the legs (15); a screw and nut combination having an axis of rotation longitudinal to the legs, the combination operably engaging at least one of the legs (15) so as to pull them together or push them apart thereby actuating the clamp portion (2) to secure the device, wherein the actuating is reversible for selectively gripping and releasing the device.

Abstract: Tinnitus masking systems for treating tinnitus are described where a device is coupled to a surface of a bone or to a tooth or several teeth. Such a device may comprise an oral appliance having an electronic and/or transducer assembly for generating sounds via a vibrating transducer element. Generally, the transducer may generate one or more frequencies of sound via the actuatable transducer to transmit a modified audio signal via vibratory conductance to an inner ear of the patient to mask tinnitus during a peak of the audio signal and to allow the user to perceive the tinnitus during a trough of the audio signal. The audio signal is also modified to account for any hearing loss of the patient as well as a bone conductance profile measured from the patient.

Abstract: Coupling apparatus for coupling an implantable element to the round window membrane. The apparatus comprises engagement means in the form of a clip or a filler material for engaging the bone surface within the round window niche. This supports the apparatus in the region of the round window membrane.

Abstract: The present application discloses systems and methods for displaying and operating a user interface having one or more channel group controllers corresponding to one or more groups of hearing prosthesis channels. The hearing prosthesis may be configured to generate a plurality of signals via a plurality of channels based on a channel profile. The channel profile may define at least one intensity level for each channel. In operation, the user interface may be configured to instruct the hearing prosthesis to change the channel profile of the plurality of channels in response to receiving an input via one of the channel group controllers. The user interface may be used to fit a hearing prosthesis to a recipient. In one embodiment, an initial channel profile may be automatically determined, and the prosthesis channel profile may be adjusted by changing a representative intensity level corresponding to the channel profile.

Abstract: The present invention relates to a round window driving transducer for easy implantation and an implantable hearing device having the same. The round window driving transducer is implantable in the round window of the cochlea in the middle ear cavity, and has excellent high frequency characteristics, which can assist patients with sensorineural hearing loss to hear sound better. The round window driving transducer can be placed inside the middle ear cavity, radiate sound with high efficiency, and be implanted by surgery using a fixing part formed with shape memory alloy, shape memory resin, or a bendable spring structure. Further, the round window driving transducer can overcome problems of the prior art, such as a difficult surgery and low vibration efficiency, which would inevitably occur when floating mass transducers are implanted in a drilled groove in the bone or when various types of piezoelectric transducers are implanted in the round window.

Abstract: A fenestration piercing the otic capsule bone of the cochlea receives a therapeutic appliance, such as a microactuator, plug, micropump for drug or therapeutic agent delivery, electrode, and the like. Several different ways of achieving a ‘water tight’ seal between the otic capsule bone and the therapeutic appliance are provided. The therapeutic appliance may be implanted with or without a sheath or sleeve lining the wall of the fenestration formed using specialized surgical burrs. The burrs permit safely fenestrating the otic capsule bone adjacent to the scala tympani of the cochlea without damaging the basilar membrane or organ of corti. This approach may also be adopted for safely fenestrating other areas of the inner ear such as the scala vestibuli, bony labyrinth of semicircular canals, or walls of the vestibule, or the oval or round windows thereof.

Abstract: An insertion system for inserting an implantable electrode carrier includes an insertion instrument having a housing with a proximal end and a distal end, and a vibration generator coupled adjacent to the housing. The proximal end is configured to hold the implantable electrode carrier. The vibration generator is configured to generate vibrations in at least a portion of the electrode carrier.

Abstract: Two layers of a plurality of rod-like permanent magnets each having a width Wm, a thickness Tm and a predetermined length are aligned on a plane in such a way that they have opposite magnetic pole orientations alternately and are aligned at a fixed pole pitch ?p are arranged to be opposed to each other with the magnetic pole orientation of each magnet in one of the layers being identical to that of the opposing magnet in the other layer. The opposing surfaces of the magnets are spaced a distance 2×lg from each other, and a vibrating membrane on which coils each having a conductive pattern are arranged is placed in a gap between any two adjacent rod-like permanent magnets in each of the two layers, where lg is a distance from the vibrating membrane to the surface of a magnet. The arrangement of the rod-like permanent magnets is optimized by using Wm, Tm, ?p, and lg.

Abstract: An implantable middle ear hearing device having a tubular vibration transducer to drive a round window is designed to input sound to a round window opposite an oval window in an inner ear. The tubular vibration transducer has a unique structure that does not attenuate the magnitude of a signal, particularly, in a high frequency band. Sound delivery effect is much higher than those of conventional schemes. It is also possible to minimize difficulties associated with and problems resulting from the operation, which the conventional methods would have. Further, the transducer can have a relatively less compact than ossicle contact type transducers, and thus be easily fabricated. The hearing device can be applied to a sensorineural hearing loss patient with the ossicle damaged. Moreover, since sound is directly transmitted without through the ear drum and the ossicle, high efficiency sound delivery is achievable and hearing loss compensation are easy.

Abstract: A fixation system for a bone conduction device is disclosed. An abutment is coupled to a bone anchor such that vibrations applied to the abutment pass into the bone anchor. The abutment defines a conduction path to the bone anchor such that vibrations applied to the abutment are transferred to the bone anchor. The abutment comprises a plurality of shearing elements disposed adjacent the bone anchor, wherein the shearing elements form part of the conduction path. The fixation system also comprises a vibratory coupler extending from the bone conduction device, comprising a second conduction surface and a magnet, wherein the magnet attracts to the abutment so as to couple the second conduction surface to the abutment, thereby enabling vibrations to pass through the conduction path. The shearing elements are configured to slide laterally in response to tangential forces incident upon the abutment.

Abstract: An implant including a bone fixture configured to anchor to bone of a recipient, and a structural component configured to be connected to the bone fixture and connect a functional component of the implant to the bone fixture, wherein at least one of the bone fixture or the structural component includes a deformable element configured to deform to form an anti-microbial seal between the bone fixture and the structural component, and the at least one deformable element and the respective at least one bone fixture or structural component form a monolithic structure.

Abstract: A magnet arrangement is described for use with hearing implant systems. An external device for use with an implant system has an external device housing that contains external elements of a hearing implant system. A cylindrical external magnet arrangement within the housing has multiple magnetic sections lying in a common plane, including an inner center disc having an inner magnetic orientation in an inner magnetic direction, and an outer radial ring having an outer magnetic orientation in an outer magnetic direction opposite to the inner magnetic direction.

Abstract: A vibration speaker with facial plate has developed for delivering sound in a form of vibrational movement to a user's skin. The vibration speaker includes a voice coil to generate a magnetic force in response to application of a sound signal from an exterior, a magnet having a predetermined magnetic force to interact with the magnetic force from the voice coil, a basket to receive the magnet, a face plate to deliver upward and downward movement of the voice coil or the magnet to the user's skin, and a rear cover coupled to the face plate to constitute an appearance of the vibration speaker. The face plate is provided with a plate-shaped tensioner providing a predetermined tension for maintaining the face plate in a horizontal state to control upward and downward vibrational movement delivered from the vibration speaker.

Abstract: A transtympanic vibration device for an implantable healing aid, suitable for being vibrated by magnetic flux transmitted from an outside and transferring vibration to a tympanic membrane. The device includes an outer plate having one surface on which a detachable magnet is detachably arranged; an inner plate sandwiching the tympanic membrane in cooperation with the outer plate and having a on which a fixed magnet is arranged; and at least one connection member connecting the outer plate and the inner plate with each other in such a manner that a distance between the outer plate and the inner plate can be adjusted.

Abstract: Implantable piezoelectric polymer film microphone apparatus and methods are described for use as an integral component of a hearing augmentation device system. The piezoelectric polymer film can be polyvinylidene fluoride (“PVDF”). Generally, a piezoelectric polymer film serves as the sensor that is well matched to tissue and which directly converts to an electrical signal by the piezoelectric effect vibration signals which are received through the tissue in which the piezoelectric polymer film microphone is implanted.

Abstract: An improved ear tip for earphones and hearing protection is provided where comfort and occlusion of the ear are of most importance. The ear tip comprises an elastomer polymer resin material molded to form the material to the shape of the ear canal. A chamber is defined having a proximal and distal end, the distal end engages the acoustic exit of the transducer, sound source or sound attenuator and the proximal end of the bore is adapted to be disposed adjacent an eardrum. The inner body attaches to a nozzle, or audio playback orifice to naturally transition the acoustics from the transducer or sound attenuator to the eardrum via the ear canal. The ear tip can have a plurality of flexible annular flanges disposed at spaced intervals of the body with decreasing circumference as the flanges transition to the proximal end. Each flange tapers in a radius or curvilinear geometry as it progresses to the end of the object.

Abstract: Aspects of the present invention are generally directed to using a flexible conductor for transmitting energy to a recipient's cochlea. The flexible conductor may be used to transmit mechanical energy, such as sound vibrations, to the cochlea from an actuator implanted, for example, in a recess in the mastoid bone of the recipient. The flexible conductor may be coupled at its distal end to a component of the recipient's middle or inner ear. In operation, mechanical movement (e.g., vibrations) may be transferred from the actuator to the middle or inner ear of the recipient by the flexible conductor. These vibrations then induce movement of perliymph in the recipient's cochlea to cause, for example, perception of the sound by the recipient.

Abstract: A combined set including a vibration actuator and an implantable device provided to be implanted in an inner ear part is disclosed. The implantable device has a surface in contact with an inner ear fluid when inserted in said inner ear part. The implantable device includes a frame having an inner wall and a slidably movable member having an outer wall which is connected to the vibration actuator. The slidably movable member is provided for transferring energy supplied by the vibration actuator from and towards the inner ear fluid by means of a translational movement. The slidably movable member is at least partially mounted inside the frame in such a manner that a gap extending between the inner wall of the frame and the outer wall of the member is less than or equal to 0.1 mm.

Abstract: This invention relates to a system (100) and method for synthesizing an audio input signal of a hearing device. The system (100) comprises a microphone unit (102) for converting the audio input signal to an electric signal, a filter unit (110) for removing a selected frequency band of the electric signal and pass a filtered signal, a synthesizer unit (118) for synthesizing the selected frequency band of the electric signal based on the filtered signal thereby generating a synthesized signal, a combiner unit (120) for combining the filtered signal and the synthesized signal so as to generate a combined signal, and finally an output unit (122, 124, 126) for converting the combined signal to an audio output signal.

Abstract: Methods and apparatus for transmitting vibrations via an electronic and/or transducer assembly through a dental implant are disclosed herein. The assembly may be attached, adhered, or otherwise embedded into or upon the implant to form a hearing assembly. The electronic and transducer assembly may receive incoming sounds either directly or through a receiver to process and amplify the signals and transmit the processed sounds via a vibrating transducer element coupled to a tooth or other bone structure, such as the maxillary, mandibular, or palatine bone structure.

Abstract: An implantable actuator system is disclosed. The system comprises a hermetically sealed housing; an actuator positioned in the housing, the actuator having at least one element displaceable relative to the housing; a coupling element connecting the actuator to the recipient's ear; and a diaphragm positioned at an end of the housing to provide a hermetic seal between the coupling element and the housing, wherein the diaphragm has sufficient flexibility to permit the coupling element to transmit vibrations to or from the actuator, wherein a liquid is positioned around the displaceable element of actuator to dampen the frequency response of the actuator, and in certain aspects, to make the system insensitive to differences in pressure between inside and outside of the housing.

Abstract: Actuator systems for oral-based appliances utilizing transducers which are attached, adhered, or otherwise embedded into or upon a dental or oral appliance to form a hearing aid assembly. Such oral appliances may be a custom-made device which receives incoming sounds and transmits the processed sounds via a vibrating transducer element. The transducer element may utilize electromagnetic or piezoelectric transducer mechanisms and may be positioned directly along the dentition or along an oral appliance housing in various configurations.

Abstract: The present subject matter provides a system for wireless communications between one or more wireless audio devices and other electronics for providing a rich set of streaming audio, control, programming and enhanced hearing functions.

Abstract: A bone conduction device for enhancing the hearing of a recipient, comprising: a sound input element configured to receive an acoustic sound signal; an electronics module configured generate an electrical signal representing the acoustic sound signal; a transducer configured to generate mechanical forces representing the electrical signal for deliver to the recipient's skull; and dual percutaneous anchors coupled to the transducer and configured to receive and transmit the mechanical forces.

Abstract: The invention relates to a bone anchored hearing aid with a sound processor which generates a vibration signal and serves the signal at a vibrator for transmission of the vibration signal into the skull bone of a wearer and where a resonance damping system is provided in the hearing aid and comprising an electronic notch filter having a notch filter center frequency F1, wherein the notch filter frequency F1 is below a resonance frequency Fsim of the hearing aid as measured in a standard skull simulator.

Abstract: A transcutaneous bone conduction system comprising a bone conduction device configured to vibrate in response to received sound. The system also comprises a totally implantable support apparatus positionable under a recipient's skin, comprising: a fixture configured to be implanted in the skull, and a substantially rigid cradle. The cradle has opposing, spaced plates connected by a bridge member, wherein a first of the plates is configured to be secured to the fixture and wherein the space between the plates is sufficient to receive the bone conduction device, and wherein the plates are configured to retain the bone conduction device against the skin proximate to the first plate.

Abstract: An implantable bone-conduction hearing actuator based on a piezoelectric element, such as a unimorph or bimorph cantilever bender, is described. Unlike other implantable bone conduction hearing actuators, the device is subcutaneous and once implanted is entirely invisible. The device excites bending in bone through a local bending moment rather than the application of a point force as with conventional bone-anchored hearing aids.

Abstract: A bone conduction hearing aid device comprising a vibrator configured to vibrate in response to sound signals received by the device. The device further comprises a housing mass forming a housing for one or more operational components of the device, wherein the housing mass is attached to the vibrator so as to move in response to the vibration. The device also comprises a coupling configured to attach the device to a recipient so as to deliver the generated mechanical to the recipient's skull.

Abstract: The present invention relates to a digital hearing aid, which models the structures of external ear canals, sizes and shape characteristics of which differ between respective persons, obtains resonance gains generated due to the structural characteristics of the external ear canals, and performs digitization and signal processing to allow the resonance gains to be used as the gain factors of the digital hearing aid, and thus applies the gain factors to digital signal processing units. Further, the present invention proposes a gain obtainment unit capable of taking both resonance gains, generated due to the structural characteristics, and gains, obtained through a hearing test, into account, thus reducing the time required for gain fitting and possible errors, and optimizing the performance of the digital hearing aid for each individual.

Abstract: The present invention relates to a method for adapting a hearing aid with at least one input converter, a signal processing device and an output converter by using a genetic feature of the wearer to whom the hearing aid is to be adapted. Depending on the genetic feature, at least one adaptable parameter is adapted by the signal processing device. The invention further relates to a hearing device system which can be adapted to the hearing device wearer as a function of a genetic feature.

Abstract: A cover for a bone fixture, including a recess to receive an abutment, implanted into a skull of a recipient, the bone fixture being a part of a bone conduction hearing prosthesis. The cover includes a fixation device sized and dimensioned to rigidly connect the cover to the implanted bone fixture, and a ferromagnetic material reactive to a magnetic field, wherein the cover is dimensioned to cover at least the recess of the bone fixture, and wherein the fixation device is configured to transmit vibrations induced in the cover via the magnetic field into the implanted bone fixture.

Abstract: A fully implantable hearing aid system comprised of an implantable sound generator module and an implantable sound receiver module connected by an implantable electric cable. The system includes: a) a sound generator module configured for implantation in subcutaneous tissue to place an output electric/acoustic (E/A) transducer, e.g., a speaker, immediately adjacent to, or preferably, extending percutaneously into, a patient's outer ear canal; b) a sound receiver module configured for implantation proximate to a patient's pinna to place an input acoustic/electric (AJE) transducer, e.g., a microphone, so that it is acoustically isolated from the E/A transducer; and c) an electric cable configured for implantation in subcutaneous tissue for directly electrically connecting said sound receiver module and said sound generator module.

Abstract: An earphone set includes a main device having a digital signal processor, and an earplug has an external microphone and a speaker electrically connected with the digital signal processor respectively. The external microphone converts an external sound wave into an electronic signal and transmits the electronic signal to the digital signal processor for processing. The speaker converts the electronic signal processed by the digital signal processor into a sound wave for output.

Abstract: The training of a hearing apparatus in respect of an individual adjustment is to be developed in a more user-friendly manner. To this end, provision is firstly made to automatically classify a hearing situation, to adjust a parameter of the signal processing facility of the hearing apparatus and to automatically learn the adjusted parameters for the current hearing situation. A temporal monitoring of the steps “classifying” and “adjusting” is however carried out here and the automatic learning is only triggered if the classified hearing situation and the adjustment of the parameters have not changed over a predetermined time period. This not only simplifies the training, but also enables a more rapid training by means of automatically triggered training events.

Abstract: The invention relates to an implantable device, e.g. a Deep Brain Stimulation device (10), and to a method for communicating information from such an implantable device (10) to its carrier. The communication is achieved by the emission of sound from a transmitter (16) into the body material surrounding the implantable device (10), wherein said sound yields signals that are audible for the carrier of the implantable device (10). In particular, the emitted sound may comprise audible frequencies or modulated ultrasonic frequencies. According to a further development, the implantable device (10) may additionally comprise a receiver (16) for receiving sound from the surrounding body material, wherein said received sound may encode information for the implantable device (10).

Abstract: A system for communicating with the inner ear is described. An acoustic transducer converts between electrical energy and mechanical energy. An inner ear catheter has a distal end in vibratory communication with the fluid of the inner ear, a proximal end in vibratory communication with the acoustic transducer, and a lumen filled with a catheter fluid for coupling vibratory signals between the distal end and the proximal end.

Abstract: The invention relates to a sound transducer for producing sound vibrations, which can be inserted in an ear and can be used in particular for an implantable hearing aid. The sound transducer has at least one carrier layer and at least one piezoelectric layer, as a result of which a deflection via a bimorph principle is achieved, or a deflection can be detected by picking up a voltage.

Abstract: A binaural supply with a hearing system is to be enabled, whereby the computing outlay and energy consumption are to be kept as minimal as possible. A hearing system comprising a first hearing apparatus including a first signal input facility and a first communication facility and a second hearing apparatus including a second signal input facility, a second communication facility for receiving a signal from the first communication facility and a second signal processing facility for processing signals from the second signal input facility and the second communication facility are provided to form a common output signal. The signal transmitted from the first to the second communication facility corresponds to a real spectral part of the overall frequency spectrum of the first input signal. As only one part of the overall spectrum is transmitted and/or binaurally processed, the computing outlay and energy consumption is reduced.

Abstract: An implantable magnet that can freely turn in response to an external magnetic field, thus avoiding torque and demagnetization on the implantable magnet. The implantable magnet can be combined with an electric switching function depending on the orientation of an external magnetic field, thus protecting an implanted coil and/or implant electronics against induction of over-voltage or performing an electric switching function for other various purposes. The magnetic switch may further include, for example, a first switching contact and a second switching contact. A magnetically soft body that includes an electrically conductive surface is shiftable between a first position where the body is in simultaneous contact with the first and second switching contacts, and a second position where the body is out of contact with at least one of the first and second switching contacts.

Abstract: A magnetofluidic hearing aid system includes a hearing aid having a signal processing device connected to a magnetic transmitter. The system includes such a hearing aid and a magnetofluid suitable for use in the body. The magnetic transmitter transmits a magnetic field producing vibrations in a liquid mixture containing the magnetofluid. The liquid mixture is operatively introduced into a cochlea, and the vibrations are suitable for triggering an auditory perception in the cochlea. Acoustic feedback is precluded as a result of the transmitter producing neither acoustic signals nor mechanical vibrations. A functional impairment caused by physical influences such as soiling, for example, of an acoustic receiver, is also precluded. Problems arising from impaired contact with the body are prevented from the beginning by the non-contact signal transmission. A hearing aid supply is also advantageously enabled regardless of the functional capability of the middle ear apparatus.

Abstract: An implantable hearing prosthesis for a recipient patient is described. An implantable attachment magnet is fixable beneath the skin of the patient to underlying skull bone and is adapted to magnetically connect with an external attachment magnet over the skin. An implantable signal transducer also is fixable beneath the skin of the patient to underlying skull bone and is adapted to transform a magnetic audio signal from an external signal drive coil into a corresponding mechanical stimulation signal for delivery by bone conduction of the skull bone as an audio signal to the cochlea. A connector member flexibly connects and positions the attachment magnet a fixed distance from the signal transducer.

Abstract: An at least partially implantable hearing system comprising at least one electromechanical output transducer; a micromanipulator for positioning the transducer and for fixing the transducer in a position set by the micromanipulator, the micromanipulator being adapted to be fixedly attached by fixing means to a skull cap; and a releasable coupling unit disposed between the transducer and the micromanipulator, said coupling unit, in an assembled state, fixing the transducer with respect to the micromanipulator, and, in a released state, permitting removal of the transducer from the micromanipulator.