Method of implanting an implantable hearing assistance device with remote electronics unit
First Claim
1. A method of assisting hearing, comprising:
- receiving a mechanical sound vibration from a middle ear region of a first ear into an electromechanical input transducer disposed within the middle ear region of the first ear, wherein the input transducer produces an input electrical signal in response to the mechanical sound vibration;
communicating the input electrical signal from the input transducer to a subcranially, subcutaneously-implanted electronics unit having a volume exceeding approximately 10 cubic centimeters, and producing from the electronics unit an output electrical signal in response to the input electrical signal;
communicating the output electrical signal from the electronics unit to an output stimulator disposed within the middle ear region of the first ear; and
delivering an output stimulus from the output stimulator to the middle ear region or an inner ear of the first ear in response to the output electrical signal.
2 Assignments
0 Petitions
Accused Products
Abstract
An implantable hearing assistance system method has a subcranially implantable electronics unit that is remotely situated from the ear, such as implanted in the pectoral region, rather than in the mastoid portion of the temporal bone. The increased volume available in the remote electronics unit allows it to carry a power source of increased energy capacity. This improves longevity, allows higher power consumption signal processing capability, and simplifies battery replacement. The hearing assistance system is coupled to a middle ear input transducer and a middle or inner ear output stimulator. The hearing assistance system is capable of use in a partial middle ear implantable (P-MEI), total middle ear implantable (T-MEI), or cochlear implant hearing assistance system.
47 Citations
13 Claims
-
1. A method of assisting hearing, comprising:
-
receiving a mechanical sound vibration from a middle ear region of a first ear into an electromechanical input transducer disposed within the middle ear region of the first ear, wherein the input transducer produces an input electrical signal in response to the mechanical sound vibration;
communicating the input electrical signal from the input transducer to a subcranially, subcutaneously-implanted electronics unit having a volume exceeding approximately 10 cubic centimeters, and producing from the electronics unit an output electrical signal in response to the input electrical signal;
communicating the output electrical signal from the electronics unit to an output stimulator disposed within the middle ear region of the first ear; and
delivering an output stimulus from the output stimulator to the middle ear region or an inner ear of the first ear in response to the output electrical signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
communicating the input and output signals with alternating current coupled communication.
-
-
6. The method of claim 1, wherein the step of communicating the input electrical signal further comprises:
-
digitizing the input electrical signal to produce a digital input signal;
digitally processing the digital input signal to produce a digital output signal; and
converting the digital output signal into the output electrical signal.
-
-
7. The method of claim 1, wherein the middle ear region of the first ear is a naturally present cavity.
-
8. The method of claim 1 wherein the step of receiving a mechanical sound vibration further comprises:
connecting the electromechanical input transducer to a tympanic membrane, a malleus, or an incus of the middle ear region of the first ear.
-
9. A method of assisting hearing, comprising:
-
receiving a mechanical sound vibration from a middle ear region of a first ear into an electromechanical input transducer disposed within the middle ear region of the first ear, wherein the input transducer produces an input electrical signal in response to the mechanical sound vibration;
communicating the input electrical signal from the input transducer to a subcutaneously, subcranially-implanted electronics unit having a volume exceeding approximately 10 cubic centimeters, and producing from the electronics unit an output electrical signal in response to the input electrical signal;
communicating the output electrical signal from the electronics unit to an output stimulator disposed within the middle ear region of a second ear; and
delivering an output stimulus from the output stimulator to the middle ear region or an inner ear of the second ear in response to the output electrical signal.
-
-
10. A method of assisting hearing, comprising:
-
implanting an electromechanical input transducer within a first middle ear region of a first ear;
implanting an output stimulator within a second middle ear region of the first ear;
implanting an electronics unit having a volume exceeding approximately 10 cubic centimeters into a subcranial portion of the body;
electrically connecting the electronics unit between the input transducer and the output stimulator;
receiving into the input transducer a mechanical sound vibration from the first middle ear region of the first ear;
sending an input electrical signal to the electronics unit from the input transducer in response to the mechanical sound vibration; and
sending an output electrical signal from the electronics unit, in response to the input electrical signal, to the output stimulator and delivering an output stimulus to the second middle ear region or the inner ear of the first ear in response to the output electrical signal.
-
-
11. A method of assisting hearing, comprising:
-
receiving a mechanical sound vibration occurring within a middle ear region of an ear and converting, within the middle ear region, the mechanical sound vibration into an input electrical signal;
delivering the input electrical signal, along a first electrical connection, from the middle ear region to a subcutaneous body portion location remote from the ear and determined by the volume of an electronics unit, the volume exceeding approximately 10 cubic centimeters;
converting the input electrical signal into an output electrical signal at the subcutaneous body portion located remotely from the ear; and
sending the output electrical signal, along a second electrical connection, from the subcutaneous body portion to an output stimulator disposed within the middle ear region of the ear and delivering from the output stimulator an output stimulus to the middle ear region or an inner ear of the ear.
-
-
12. A method of assisting hearing, comprising:
-
receiving a mechanical sound vibration from a middle ear region of a first ear into an electromechanical input transducer disposed within the middle ear region of the first ear, wherein the input transducer produces an input electrical signal in response to the mechanical sound vibration;
communicating the input electrical signal from the input transducer to a subcutaneously-implanted electronics unit located remotely from the first ear and having a volume exceeding approximately 10 cubic centimeters, and producing from the electronics unit an output electrical signal in response to the input electrical signal;
communicating the output electrical signal from the electronics unit to an output stimulator disposed within the middle ear region of the first ear; and
delivering an output stimulus from the output stimulator to the middle ear region or an inner ear of the first ear in response to the output electrical signal.
-
-
13. A method of assisting hearing, comprising:
-
receiving a mechanical sound vibration from a middle ear region of a first ear into an electromechanical input transducer disposed within the middle ear region of the first ear, wherein the input transducer produces an input electrical signal in response to the mechanical sound vibration;
communicating the input electrical signal from the input transducer to a subcutaneously-implanted electronics unit located remotely from the first ear and a second ear and having a volume exceeding approximately 10 cubic centimeters, and producing from the electronics unit an output electrical signal in response to the input electrical signal;
communicating the output electrical signal from the electronics unit to an output stimulator disposed within the middle ear region of the second ear; and
delivering an output stimulus from the output stimulator to the middle ear region or an inner ear of the second ear in response to the output electrical signal.
-
Specification