ADVANCED BIONICS, LLC Patent applications |
Patent application number | Title | Published |
20160096013 | Steerable Stylet - A stylet for inserting an electrode array into a cochlea includes a first sensor insertable within a lumen of the electrode array and sensitive to force applied by a lumen wall to the first sensor and a first actuator adapted to move the electrode array in response to the force sensed by the first sensor. | 04-07-2016 |
20150267314 | COCHLEAR ELECTRODE ARRAY - A cochlear lead includes a plurality of electrode assemblies partially embedded in a flexible body configured to stimulate an auditory nerve from within a cochlea. Each of the electrode assemblies includes a flexible electrically conductive material forming a plurality of support structures and an electrode pad attached a support structure, the electrode pad having a surface that is configured to be exposed to cochlear tissue and fluids and has a charge transfer to the cochlear tissue and fluids that is higher than the flexible electrically conductive material. | 09-24-2015 |
20150231390 | Cochlear Lead - 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. | 08-20-2015 |
20140163662 | INTEGRATED WIRE CARRIER FOR ELECTRODE ARRAY - 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. | 06-12-2014 |
20130289656 | METHODS AND SYSTEMS OF CONVEYING FINE STRUCTURE INFORMATION TO A COCHLEAR IMPLANT PATIENT - An exemplary system includes 1) a sound processor configured to divide an audio signal into a plurality of analysis channels, wherein each of the analysis channels contains information corresponding to a distinct frequency band of the audio signal, and wherein one of the analysis channels contains fine structure information corresponding to the audio signal, and 2) an implantable cochlear stimulator configured to generate electrical stimulation in accordance with the information contained within each of the analysis channels, apply the electrical stimulation to at least one stimulation site within a patient via a plurality of stimulation channels, each of the stimulation channels corresponding to one of the analysis channels and configured to convey the information contained within the analysis channels to the patient via at least one electrode, and at least partially isolate one of the stimulation channels from a rest of the stimulation channels. | 10-31-2013 |
20130253609 | Methods and Systems for Representing Different Spectral Components of an Audio Signal Presented to a Cochlear Implant Patient - An exemplary system includes a sound processor configured to identify one or more spectral peaks of an audio signal presented to a cochlear implant patient and an implantable cochlear stimulator communicatively coupled to the sound processor and configured to apply electrical stimulation representative of the one or more spectral peaks to at least one stimulation site within the cochlear implant patient using a partial multipolar stimulation configuration and apply electrical stimulation representative of one or more other spectral components of the audio signal to at least one other stimulation site within the cochlear implant patient using a monopolar stimulation configuration. Corresponding systems methods are also disclosed. | 09-26-2013 |
20130116747 | MODULAR SPEECH PROCESSOR HEADPIECE - A cochlear implant system includes: an electrode array implanted within a cochlea; an internal processor in communication with the electrode array; an implanted antenna which is electrically coupled to the internal processor; and a modular external headpiece which is removably positioned over the implanted antenna, the modular external headpiece including a core containing a sound processor for processing sound and providing a corresponding signal to the implanted antenna; and a modular component configured to releasably engage the core and supply electrical power to the core. A modular speech processor headpiece includes a core comprising a microphone and sound processor for producing a signal representing ambient sound to be transmitted to a cochlear implant, the core further comprising a number of electrical contacts; and a modular component containing a number of electrical contacts corresponding to the electrical contacts of the core; wherein the core is configured to engage with the modular component such that electrical communication is made between the core and the modular component. | 05-09-2013 |
20130079749 | Modular Drug Delivery System for Minimizing Trauma During and After Insertion of a Cochlear Lead - A modular capsule includes a first therapeutic agent having a first solubility in biological fluids in an implanted environment and a second therapeutic agent having a second lower solubility in the biological fluids. The modular capsule is configured such that dissolution of the first therapeutic agent increases a rate of dissolution of the second therapeutic agent. | 03-28-2013 |
20130041331 | Modular Drug Delivery System for Minimizing Trauma During and After Insertion of a Cochlear Lead - A system for delivering a therapeutic agent to biological tissue includes a surgically implantable lead to be inserted into the biological tissue. The surgically implantable lead includes a preformed cavity. A modular capsule is configured to be retained within the preformed cavity. The modular capsule includes a first therapeutic agent and a second therapeutic agent, wherein the first therapeutic agent elutes rapidly into the biological tissue and the second therapeutic agent elutes more slowly into the biological tissue. | 02-14-2013 |
20120296405 | COCHLEAR ELECTRODE ARRAY - A cochlear lead includes a plurality of electrode assemblies partially embedded in a flexible body configured to stimulate an auditory nerve from within a cochlea. Each of the electrode assemblies includes a flexible electrically conductive material forming a plurality of support structures and an electrode pad attached a support structure, the electrode pad having a surface that is configured to be exposed to cochlear tissue and fluids and has a charge transfer to the cochlear tissue and fluids that is higher than the flexible electrically conductive material. | 11-22-2012 |
20120221088 | Cochlear Lead - 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. | 08-30-2012 |
20120197346 | Optimizing Pitch Allocation in a Cochlear Implant - Errors in pitch allocation within a cochlear implant are corrected in order to provide a significant and profound improvement in the quality of sound perceived by the cochlear implant user. The disclosure provides a tool for determining the implant fitting curve for cochlear implant system to correct pitch warping. The method presents familiar musical tunes to determine the implant fitting slope (relative alignment). In addition, in one embodiment, speech sounds may be used to determine the offset of the fitting line (absolute alignment). The use of music and speech to determine the implant fitting curve (line) and the slope is facilitated by using techniques to implement virtual electrodes to more precisely direct stimuli to the location or “place” on the cochlea. | 08-02-2012 |
20120179224 | COMPENSATION CURRENT OPTIMIZATION FOR COCHLEAR IMPLANT SYSTEMS - An exemplary method includes 1) applying a main current to a first electrode disposed within a patient and associated with a first pitch, 2) concurrently applying a compensation current to a second electrode disposed within the patient and associated with a second pitch during the application of the main current, the compensation current being out-of-phase with the main current, and 3) optimizing an amount of the compensation current to result in a target pitch being presented to the patient that is distanced from the first pitch in a pitch direction opposite a pitch direction of the second pitch in relation to the first pitch. Corresponding methods and systems are also disclosed. | 07-12-2012 |
20120179223 | METHODS AND SYSTEMS OF COMPENSATING FOR A DISABLED ELECTRODE - An exemplary method includes 1) identifying, by a cochlear implant system, an electrode included within an array of electrodes as being a disabled electrode, 2) selecting, by the cochlear implant system, at least two non-adjacent electrodes surrounding the disabled electrode, and 3) simultaneously applying, by the cochlear implant system, stimulation current to the at least two non-adjacent electrodes to compensate for a loss of stimulation resulting from the disabled electrode. Corresponding methods and systems are also disclosed. | 07-12-2012 |
20120035615 | Composite Stylet - A composite stylet for facilitating insertion of an implantable electrode array into either a left or right cochlea comprises a composite having a glass transition temperature between room temperature and body temperature. While relatively stiff and straight at room temperature, the composite stylet is slidably inserted into a longitudinal lumen of the electrode array. The electrode array is then inserted into the cochlea. As the composite stylet within the electrode array warms to body temperature, it becomes compliant, allowing the electrode array to assume a spiral shape. The proximal end of the composite stylet, which is not inserted into the body, retains its stiffness to aid the implanter in inserting the electrode array. | 02-09-2012 |
20120016444 | Implantable Hermetic Feedthrough - An implantable hermetic system includes a hermetic case and a hermetic feedthrough sealed into an aperture in the case. The hermetic feedthrough includes vias which form electrically conductive paths through the hermetic feedthrough. A header that includes integral interconnection contacts is attached to the case. The vias are electrically joined to the interconnection contacts. | 01-19-2012 |
20120012374 | ELECTRICAL FEEDTHROUGH ASSEMBLY - An electrical feedthrough includes a ceramic body and a ribbon via extending through the ceramic body, an interface between the ribbon via and the ceramic body being sealed using partial transient liquid phase bonding. The ribbon via extends out of the ceramic body and makes an electrical connection with an external device. | 01-19-2012 |
20110319965 | Optimizing Pitch Allocation in a Cochlear Stimulation System - Optimizing pitch allocation in a cochlear stimulation system may include implanting an electrode array having a plurality of electrodes into the cochlea of a patient, where the electrode array has an associated implant fitting characteristic that defines a relationship between the implanted electrode array and audio frequencies, presenting sounds through the electrode array to the patient, receiving from the patient a selection of one of the sounds that most closely conforms to a single note, and determining a slope of the implant fitting characteristic of the electrode array based on the sound selected by the patient. Each sound may include a fundamental frequency and one or more harmonics. The optimization may also include changing a center frequency of a band pass filter associated with each electrode based on the determined slope. | 12-29-2011 |
20110319907 | Cochlear Implant System with Removable Stylet - A cochlear implant system includes a cochlear electrode array which has a flexible body with a distal end, a plurality of electrodes supported along a length of the flexible body, and a lumen formed in the flexible body. The cochlear implant system also includes a stiffening stylet which is fully inserted into the lumen prior to insertion of the electrode array into the cochlea. The stiffening stylet is configured such the stylet does not extend to the distal end of the flexible body and remains stationary within the lumen to prevent buckling of the electrode array during insertion of the electrode array through a cochleostomy and into the cochlea. The stiffening stylet is configured to be withdrawn from the lumen after the electrode array is positioned within the cochlea. A method for implanting an electrode array into a cochlea is also provided. | 12-29-2011 |
20110295352 | Cochlear Lead - 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 and positioned such that the stiffening element plastically deforms upon insertion into a curved portion of the cochlea. | 12-01-2011 |
20110281450 | Miniature Electrical Connectors - A miniature electrical connector comprising a floating and vertically orientable spring contact within but not physically secured to an electrically-conductive connector block of a female connector wherein the spring contact and connector block are designed such that the spring contact is vertically oriented and outwardly expanded when a male connector is inserted into the female connector to provide a conductive path between a male contact of the male connector and the connector block of the female connector. | 11-17-2011 |
20110255725 | Beamforming Microphone System - A system and method for generating a beamforming signal is disclosed. A beam forming signal is generated by disposing a first microphone and a second microphone in horizontal coplanar alignment. The first and second microphones are used to detect a known signal to generate a first response and a second response. The first response is processed along a first signal path communicatively linked to the first microphone, and the second response is processed along a second signal path communicatively linked to the second microphone. The first and second responses are matched, and the matched responses are combined to generate the beamforming signal on a combined signal path. | 10-20-2011 |
20110166626 | Methods and Apparatus For Cochlear Implant Signal Processing - A cochlear implant processing strategy increases speech clarity and higher temporal performance. The strategy determines the power spectral component within each channel, and dynamically selects or de-selects the channels through which a stimulation pulse is provided as a function of whether the spectral power of the channel is high or low. “High” and “low” are estimated relative to a selected spectral power, for example. The selected spectral power can be estimated by signal average or mean, or by other criteria. Once a selection of the channels to stimulate has been made, the system can decide that only those channels are stimulated, and stimulation is removed from the other channels. The selected channels are the ones on which the spectral power is above the mean of all the available channels. Fewer channels are stimulated at any time and the contrast of the stimulation is enhanced. Also, the temporal resolution increases as the number of channels that must be stimulated on a given frame decreases. This way, the channels which are presented to the patient are fewer in number and contain more temporal information. | 07-07-2011 |
20110166625 | Methods and Apparatus For Cochlear Implant Signal Processing - A cochlear implant processing strategy increases speech clarity and higher temporal performance. The strategy determines the power spectral component within each channel, and dynamically selects or de-selects the channels through which a stimulation pulse is provided as a function of whether the spectral power of the channel is high or low. “High” and “low” are estimated relative to a selected spectral power, for example. The selected spectral power can be estimated by signal average or mean, or by other criteria. Once a selection of the channels to stimulate has been made, the system can decide that only those channels are stimulated, and stimulation is removed from the other channels. The selected channels are the ones on which the spectral power is above the mean of all the available channels. Fewer channels are stimulated at any time and the contrast of the stimulation is enhanced. Also, the temporal resolution increases as the number of channels that must be stimulated on a given frame decreases. This way, the channels which are presented to the patient are fewer in number and contain more temporal information. | 07-07-2011 |
20110160799 | Dynamic Compliance Voltage Management for an Implantable Stimulator - An exemplary method includes generating, by an external control device selectively and communicatively coupled to an implantable stimulator, a calibration table indicating transmit power levels required to achieve a plurality of distinct combinations of compliance voltages and maximum stimulation current levels by the implantable stimulator, determining, by the external control device, a maximum stimulation current level to be delivered by the implantable stimulator via one or more electrodes to one or more stimulation sites within a patient during a stimulation frame, determining, by the external control device, an optimal compliance voltage that allows the implantable stimulator to deliver the determined maximum stimulation current level, and selecting, by the external control device in accordance with the calibration table, a transmit power level that results in the implantable stimulator operating at substantially the optimal compliance voltage during the stimulation frame. Corresponding methods, apparatuses and systems are also disclosed. | 06-30-2011 |
20110139484 | Hermetic Electrical Feedthrough - A method for fabricating a hermetic electrical feedthrough includes engraving a circuitous groove into a surface of an electrically conductive monolithic slab so that the interior of the circuitous groove forms a pin. A dielectric material is formed in the circuitous groove. The pin is then electrically isolated from the surrounding material and provides electrical access through the hermetic feedthrough. | 06-16-2011 |
20110116669 | Accessory Adapter For Cochlear Implant System Providing Simultaneous T-Mic and External Audio Input - A special accessory adapter for use with a BTE device of a cochlear implant (CI) system provides two inputs: a T-Mic input and an auxiliary audio input. Both inputs (the T-Mic input and the auxiliary audio input) are connected to a special mixer circuit integrated into a body of the accessory adapter. The body of the accessory adapter connects to the BTE using the same earhook attachment mechanism used by other accessories used by the CI system. The special mixer circuit prevents signals from either the T-Mic input or the auxiliary audio input from interfering with each other. Both signals, however, can still be processed by the processing circuits of the BTE and combined in such a way that user is able to perceive both signals at the same time. | 05-19-2011 |
20110106209 | Systems and Methods of Facilitating Manual Adjustment of One or More Cochlear Implant System Control Parameters - An exemplary cochlear system includes a sound processing unit configured to process an audio signal, an implantable cochlear stimulator communicatively coupled to the sound processing unit and configured to apply stimulation representative of the audio signal to a patient via one or more electrodes in accordance with the processing of the audio signal, and a user input facility communicatively coupled to the sound processing unit. The sound processing unit and the implantable cochlear stimulator are configured to operate in accordance with a plurality of control parameters, which may be selectively associated and disassociated with the user input facility in order to facilitate manual adjustment of one or more of the control parameters. Corresponding systems and methods are also disclosed. | 05-05-2011 |
20110106101 | Steerable Stylet - A stylet for inserting an electrode array into a cochlea includes a first sensor insertable within a lumen of the electrode array and sensitive to force applied by a lumen wall to the first sensor and a first actuator adapted to move the electrode array in response to the force sensed by the first sensor. | 05-05-2011 |
20110098786 | Remote Audio Processor Module for Auditory Prosthesis Systems - An exemplary auditory prosthesis system includes an auditory prosthesis configured to be implanted within a head of a patient and to apply electrical stimulation representative of an audio signal to one or more stimulation sites within the patient in accordance with one or more stimulation parameters, a behind-the-ear sound processing unit configured to be secured to an ear of the patient and to transmit the one or more stimulation parameters to the auditory prosthesis, and a remote audio processor module separate from the behind-the-ear sound processing unit and communicatively coupled to the behind-the-ear sound processing unit via a communication link, the remote audio processor module configured to perform at least a portion of a signal processing heuristic on the audio signal in order to facilitate generation of the one or more stimulation parameters. Corresponding systems and methods are also disclosed. | 04-28-2011 |
20110098785 | Fully Implantable Cochlear Implant Systems Including Optional External Components and Methods for Using the Same - An exemplary cochlear implant system includes an external module configured to be positioned external to and worn by a patient, the external module having an external microphone configured to detect an input audio signal presented to the patient, and an external speaker configured to acoustically transmit an audio signal representative of the input audio signal. The exemplary cochlear implant system further includes an implantable module configured to be implanted within the patient, the implantable module having an internal microphone configured to detect the acoustically transmitted audio signal, an internal sound processor configured to generate one or more stimulation parameters based on the acoustically transmitted audio signal, and an internal cochlear stimulator configured to apply electrical stimulation representative of the input audio signal to one or more stimulation sites within the patient in accordance with the one or more stimulation parameters. Corresponding methods and systems are also disclosed. | 04-28-2011 |
20110078595 | Methods and Systems for Preventing Unauthorized Access to Patient Information - An exemplary method includes displaying a graphical user interface configured to include a patient list displayed therein, receiving user input representative of a search term comprising one or more characters selected to identify a particular patient included within a plurality of patients, dynamically updating the patient list in response to the received user input to only include a plurality of entries that contain the search term, each of the entries comprising patient information associated with a distinct one of the patients, and preventing one or more non-search term characters contained within each of the entries of the patient list from being displayed within the graphical user interface. Corresponding methods and systems are also disclosed. | 03-31-2011 |
20110077710 | Methods and Systems for Representing Different Spectral Components of an Audio Signal Presented to a Cochlear Implant Patient - An exemplary method of representing different spectral components of an audio signal presented to a cochlear implant patient includes identifying one or more spectral peaks of an audio signal presented to a cochlear implant patient, applying electrical stimulation representative of the one or more spectral peaks to at least one stimulation site within the cochlear implant patient using a partial multipolar stimulation configuration, and applying electrical stimulation representative of one or more other spectral components of the audio signal to at least one other stimulation site within the cochlear implant patient using a monopolar stimulation configuration. Corresponding methods and systems are also disclosed. | 03-31-2011 |
20110069853 | Auditory Front End Customization - A method and system for implementing an acoustical front end customization are disclosed. The customization is implemented to optimize the sound level for each individual cochlear implant user. A known audio signal is generated using a sound source and captured by a microphone system. The captured sound signal is sampled at one or more locations along the signal processing pathway, and a spectrum is determined for the sampled signal and the known signal. A ratio of the two spectrums is related to the undesired transformation of the sampled signal, and a digital filter is designed based on the ratio to filter out the undesired transformation. | 03-24-2011 |
20110009877 | LEAD INSERTION TOOLS - An exemplary insertion tool configured to facilitate insertion of a lead into a bodily orifice includes a handle assembly configured to facilitate handling of the insertion tool, an insertion assembly coupled to the handle assembly and comprising a rigid holding tube configured to removably couple to a portion of the lead, and a release assembly disposed at least partially within the handle assembly and comprising a release button. The release assembly is configured to release the lead from the holding tube in response to user actuation of the release button. Corresponding insertion tools, systems, and methods are also described. | 01-13-2011 |
20100318158 | Optimizing Pitch and Other Speech Stimuli Allocation in a Cochlear Implant - Errors in pitch (frequency) allocation within a cochlear implant are corrected in order to provide a significant and profound improvement in the quality of sound perceived by the cochlear implant user. In one embodiment, the user is stimulated with a reference signal, e.g., the tone “A” (440 Hz) and then the user is stimulated with a probe signal, separated from the reference signal by an octave, e.g., high “A” (880 Hz). The user adjusts the location where the probe signal is applied, using current steering, until the pitch of the probe signal, as perceived by the user, matches the pitch of the reference signal, as perceived by the user. In this manner, the user maps frequencies to stimulation locations in order to tune his or her implant system to his or her unique cochlea. | 12-16-2010 |
20100234920 | Spectral Contrast Enhancement in a Cochlear Implant Speech Processor - Psychophysical tests are administered to cochlear implant (CI) users to determine a spectral modulation transfer function (SMTF), smallest detectable spectral contrast as a function of spectral modulation frequency, for each individual CI user. The determined SMTF for individual CI user is compared against a SMTF of a normal hearing person to determine the specific enhancements needed. A profile of spectral enhancement achievable with variation of filter parameters, sigma and maximum that best fits the needed enhancements for the individual CI user is selected. Based on the corresponding sigma and maximum selected, a sound processing strategy is adjusted to provide customized spectral contrast enhancement for the individual CI user. The sound processing strategy implemented includes an outer hair cell model. | 09-16-2010 |
20100228321 | Systems for Fitting a Cochlear Implant to a Patient - Systems for fitting an implantable cochlear stimulator to a patient include an interface unit configured to display a graphical representation of an implant fitting line as part of a graphical user interface. The implant fitting line has a slope and a horizontal position and represents a mapping relationship between a plurality of audio frequencies and a plurality of stimulation sites within a cochlea of the patient. The interface unit is further configured to facilitate adjustment of the slope and/or horizontal position of the fitting line. | 09-09-2010 |
20100198303 | MODULAR COCHLEAR IMPLANT SYSTEMS INCLUDING IMPLANTABLE SOUND PROCESSORS - Exemplary cochlear implant systems include an implantable head module configured to be implanted within a head of a patient. The implantable head module includes a cochlear stimulator configured to be coupled to an electrode lead, the electrode lead including one or more electrodes configured to be in communication with one or more stimulation sites within the patient. The implantable head module also includes a signal receiver configured to receive a telemetry signal representative of an audio signal from a signal transmitter located external to the patient, a sound processor configured to process the telemetry signal and direct the cochlear stimulator to generate and apply electrical stimulation representative of the audio signal to the one or more stimulation sites via the electrode lead, and a power receiver configured to receive power for operating the implantable head module from a power transmitter located external to the patient. | 08-05-2010 |
20100179616 | Outer Hair Cell Stimulation Model for the Use by an Intra-Cochlear Implant - Contrast between various frequency components of sound is enhanced through a lateral suppression strategy to provide increased speech perception in the electrically stimulated cochlea. A received audio signal is divided into a plurality of input signals, wherein each input signal is associated with a frequency band. A plurality of envelope signals are generated by determining the envelope of each of a plurality of the input signals. At least one of the envelope signals is scaled in accordance with a scaling factor to generate at least one scaled envelope signal. An output signal is generated by combining at least one envelope signal with at least one scaled envelope signal, and the cochlea is stimulated based on the generated output signal. The lateral suppression strategy can be applied to one or more frequency bands using scaled amplitude signals associated with one or more neighboring frequency bands. | 07-15-2010 |
20100161000 | COMPENSATION CURRENT OPTIMIZATION FOR COCHLEAR IMPLANT SYSTEMS - An exemplary cochlear stimulation method includes applying a main current to a first electrode associated with a first pitch and disposed within a cochlea of a patient, concurrently applying a compensation current to a second electrode disposed within the cochlea and associated with a second pitch during the application of the main current, the compensation current being out-of-phase with the main current, and optimizing an amount of the compensation current to result in a target pitch being presented to the patient that is distanced from the first pitch in a pitch direction opposite a pitch direction of the second pitch in relation to the first pitch. Corresponding methods and systems are also disclosed. | 06-24-2010 |
20100121412 | Optimizing Pitch Allocation in a Cochlear Implant - Errors in pitch allocation within a cochlear implant are corrected in order to provide a significant and profound improvement in the quality of sound perceived by the cochlear implant user. The disclosure provides a tool for determining the implant fitting curve for cochlear implant system to correct pitch warping. The method presents familiar musical tunes to determine the implant fitting slope (relative alignment). In addition, in one embodiment, speech sounds may be used to determine the offset of the fitting line (absolute alignment). The use of music and speech to determine the implant fitting curve (line) and the slope is facilitated by using techniques to implement virtual electrodes to more precisely direct stimuli to the location or “place” on the cochlea. | 05-13-2010 |
20100114288 | COCHLEAR ELECTRODE INSERTION - A system for mechanically assisted insertion of an electrode includes: an insertion tool configured to insert the electrode into biological tissues; and a controller configured to control the insertion tool, in which the controller is further configured to select operating parameters comprising a maximum allowable force profile from a library of operating parameters, in which the maximum allowable force profile is generated from data recorded during a number of previous successful operations. Also, a method for insertion of a cochlear lead, includes: selecting operating parameters comprising a maximum allowable force profile from a library of operating parameters; inserting the cochlear lead while sensing real time force and position; and continuing the insertion while the real time force is below the maximum allowable force profile, in which the maximum allowable force profile is generated from data recorded during a number of previous successful operations. | 05-06-2010 |
20100070000 | METHODS AND SYSTEMS OF CONVEYING FINE STRUCTURE INFORMATION TO A COCHLEAR IMPLANT PATIENT - An exemplary method of conveying fine structure information to a cochlear implant patient includes dividing an audio signal into a plurality of analysis channels, generating electrical stimulation in accordance with the information contained within each of the analysis channels, applying the electrical stimulation to at least one stimulation site within a patient via a plurality of stimulation channels, and at least partially isolating one of the stimulation channels from a rest of the stimulation channels, wherein fine structure information is conveyed to the patient via the isolated stimulation channel. Corresponding methods and systems are also disclosed. | 03-18-2010 |
20100069998 | SPECTRAL TILT OPTIMIZATION FOR COCHLEAR IMPLANT PATIENTS - Methods and systems of spectral tilt optimization for a cochlear implant patient include applying electrical stimulation representative of an audio signal to a patient in accordance with a spectral tilt value and optimizing the spectral tilt value in response to a measured ability of the patient to recognize at least one attribute of the audio signal. | 03-18-2010 |
20090292237 | Modular Drug Delivery System for Minimizing Trauma During and After Insertion of a Cochlear Lead - A system for delivering therapeutic agents to biological tissue includes a surgically implantable lead configured to be inserted into the biological tissue, the surgically implantable lead including a preformed cavity; and a modular capsule containing a therapeutic agent which includes dexamethasone base; the modular capsule being secured within the preformed cavity; the modular capsule releasing the therapeutic agent into the biological tissue. A method of delivering therapeutic agents to biological tissue includes obtaining a surgically implantable lead with a preformed cavity; obtaining a modular capsule containing a therapeutic agent comprising dexamethasone base and securing it within the preformed cavity; and inserting the surgically implantable lead into the biological tissue. | 11-26-2009 |
20090279723 | Processing Signals Representative of Sound Based on the Identity of an Input Element - Systems and techniques for processing signals representative of sound for conveyance to the auditory system of a subject based on the identity of an input device. In one implementation, a method includes identifying an input element to an audiological system that conveys sound information directly to a subject's auditory system, automatically setting parameters for processing the signal based on the identity of the input element, and processing the signal in accordance with the processing parameters. The input element is configured to generate a signal representative of sound. | 11-12-2009 |
20090264960 | Tonality-Based Optimization of Sound Sensation for a Cochlear Implant Patient - Methods and systems of optimizing sound sensation of a cochlear implant patient include dividing an audio signal into a plurality of analysis channels, generating one or more tonality indices each representing a tonality of one of the analysis channels, generating one or more stimulation pulses configured to represent the audio signal in accordance with one or more stimulation parameters, and adjusting at least one of the stimulation parameters based on at least one of the tonality indices. | 10-22-2009 |
20090222064 | Autonomous Autoprogram Cochlear Implant - Disclosed is a cochlear stimulation system having patient parameters that reside in memory of an internal portion of the system. Different external systems define how the cochlear stimulation system processes a received acoustic signal and uses patient information uploaded from an implant to parameterize system processing. The external system uses external and internal processing capability to convert acoustic signals to electrical stimulus most appropriate for the patient. Because the patient parameters reside internally, the external portion of the system can be replaced to provide an external replacement processor and potentially offer the patient an new type of program without having to re-program the cochlear stimulation system. | 09-03-2009 |
20090187237 | Inner Hair Cell Stimulation Model for Use by a Cochlear Implant System - The stimulation provided in the electrically stimulated cochlea is modulated in accordance with the amplitude of a received acoustic signal and the onset of a sound in a received acoustic signal to provide increased sound perception. An onset time that corresponds to the onset of a sound is detected in an acoustic signal associated with a frequency band. A forcing voltage and a transmitting factor are determined, wherein the forcing voltage and the transmitting factor are associated with the frequency band at the detected onset time. The acoustic signal is modulated as a function of the forcing voltage and the transmitting factor to generate an output signal. The generated output signal can be used to stimulate the cochlea. The modulation strategy can be used in conjunction with sound processing strategies that employ frequency modulation, amplitude modulation, or a combination of frequency and amplitude modulation. | 07-23-2009 |
20090030485 | Estimating Flap Thickness For Cochlear Implants - A flap thickness measurement system includes a reference cochlear stimulation system. The reference cochlear stimulation system includes a sound processor, a transmitter that transmits a telemetric signal, and a cochlear stimulator having a receiver that receives the telemetric signal and transmits a signal back to the transmitter. The system further includes one or more flap simulators having one or more known thicknesses that is positioned between the transmitter and receiver. Also included is a microprocessor that receives and processes data representative of tank voltage from the reference cochlear stimulation system. | 01-29-2009 |
20090024185 | SPECTRAL CONTRAST ENHANCEMENT IN A COCHLEAR IMPLANT SPEECH PROCESSOR - Among other things, enhancing spectral contrast for a cochlear implant listener includes detecting a time domain signal. A first transformation is applied to the detected time domain signal to convert the time domain signal to a frequency domain signal. A second transformation is applied to the frequency domain signal to express the frequency domain signal as a sum of two or more components. A sensitivity of the cochlear implant listener to detect modulation of each component is obtained. | 01-22-2009 |
20090018616 | Systems and Methods for Determining a Threshold Current Level Required to Evoke a Stapedial Muscle Reflex - Exemplary cochlear implant systems include an implantable cochlear stimulator configured to be implanted within a patient and generate a stimulation current having an adjustable current level, one or more electrodes communicatively coupled to the stimulator and configured to apply the stimulation current to one or more locations within an ear of the patient, and a probe configured to acquire sound data used to derive an acoustic reflectance of the ear. The implantable cochlear stimulator is configured to adjust the current level of the stimulation current until a change in the acoustic reflectance above a threshold is detected. | 01-15-2009 |