Method and system for external assessment of hearing aids that include implanted actuators
First Claim
1. A method for use in positioning a vibratory member of an implanted hearing aid transducer, comprising:
- positioning a test measurement device external to a patient having the implanted hearing aid transducer;
first utilizing the externally positioned test measurement device to obtain at least one impedance measure of the actuator responsive to an electrical signal provided to the implanted hearing aid transducer;
employing the at least one impedance measure obtained in the first utilizing step to determine if the implanted hearing aid transducer is operational;
second utilizing the externally positioned test measurement device to obtain a plurality of impedance measures of the actuator response to a corresponding plurality of electrical signals provided to the implanted hearing aid transducer at a corresponding plurality of different frequencies within a predetermined frequency range;
identifying a resonant frequency of the implanted hearing aid transducer using the plurality of impedance measures obtained in the second utilizing step; and
using the externally positioned test measurement device to obtain a plurality of impedance measures of the actuator in response to an electrical signal provided to the implanted hearing aid transducer at or within a predetermined range of said identified resonant frequency of the implanted hearing aid transducer;
positioning the vibratory member of the implanted hearing aid transducer relative to a patient'"'"'s ossicular chain, during at least a portion of said using step, utilizing said plurality of impedance measures obtained in said using step.
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Accused Products
Abstract
A noninvasive method and system are provided for assessing the performance of implanted actuators of semi or fully-implantable hearing aid systems. The invention utilizes an externally positioned measurement device to obtain a test measure of the electrical signal passing through an implanted actuator when driven by a test signal of predetermined characteristics. In one embodiment, the measurement device may comprise a pair of coils for measuring the magnetic field generated by an implanted actuator utilized to simulate the middle ear of a patient. The magnetic field strength is directly related to the amount of current passing through the actuator. In turn, such current is inversely related to the electrical impedance present at the implanted actuator. Such electrical impedance is directly related to the mechanical impedance present at the interface between the implanted actuator and middle ear of a patient. As such, by driving an implanted actuator at one or more predetermined frequencies the resultant magnetic field measures may be utilized to assess whether the implanted actuator is operative and whether a desired interface between the actuator and the middle ear of patient (e.g. the ossicular chain) is present.
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Citations
20 Claims
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1. A method for use in positioning a vibratory member of an implanted hearing aid transducer, comprising:
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positioning a test measurement device external to a patient having the implanted hearing aid transducer; first utilizing the externally positioned test measurement device to obtain at least one impedance measure of the actuator responsive to an electrical signal provided to the implanted hearing aid transducer; employing the at least one impedance measure obtained in the first utilizing step to determine if the implanted hearing aid transducer is operational; second utilizing the externally positioned test measurement device to obtain a plurality of impedance measures of the actuator response to a corresponding plurality of electrical signals provided to the implanted hearing aid transducer at a corresponding plurality of different frequencies within a predetermined frequency range; identifying a resonant frequency of the implanted hearing aid transducer using the plurality of impedance measures obtained in the second utilizing step; and using the externally positioned test measurement device to obtain a plurality of impedance measures of the actuator in response to an electrical signal provided to the implanted hearing aid transducer at or within a predetermined range of said identified resonant frequency of the implanted hearing aid transducer; positioning the vibratory member of the implanted hearing aid transducer relative to a patient'"'"'s ossicular chain, during at least a portion of said using step, utilizing said plurality of impedance measures obtained in said using step. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A method for use in positioning a vibratory member of an implanted hearing aid transducer, comprising:
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positioning a test measurement device external to a patient having the implanted hearing aid transducer; first utilizing the externally positioned test measurement device to obtain at least one impedance measure of the actuator responsive to an electrical signal provided to the implanted hearing aid transducer; employing the at least one impedance measure obtained in the first utilizing step to determine if the implanted hearing aid transducer is operational; second utilizing the externally positioned test measurement device to obtain a plurality of impedance measures of the actuator response to a corresponding plurality of electrical signals provided to the implanted hearing aid transducer at a corresponding plurality of different frequencies within a predetermined frequency range; identifying a resonant frequency of the implanted hearing aid transducer using the plurality of impedance measures obtained in the second utilizing step; and using the externally positioned test measurement device to obtain a plurality of impedance measures of the actuator in response to an electrical signal provided to the implanted hearing aid transducer at or within a predetermined range of said identified resonant frequency of the implanted hearing aid transducer; changing a position of the vibratory member of the implanted hearing aid transducer relative to a patient'"'"'s ossicular chain, during at least a portion of said using step, utilizing said plurality of impedance measures obtained in said using step, wherein an optimal desired position is established. - View Dependent Claims (17, 18, 19, 20)
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Specification