Fluid filled microphone balloon to be implanted in the middle ear
First Claim
1. An implantable microphone system, usable by a patient having a cochlear prosthesis, comprising:
- a microphone capsule having first and second chambers separated by a flexible diaphragm, the second chamber having a first fluid therein;
a microphone sensor within the first chamber that is in mechanical contact with the flexible diaphragm, the microphone sensor comprising a transducer that converts movement of the flexible diaphragm to an electrical signal;
a balloon implantable in the middle ear of the patient, the balloon having a second fluid therein, and having a wall adapted to be coupled with a movable component of the middle ear, wherein movement of the middle ear component causes the balloon wall to also move;
a fluid communication channel coupling the first fluid within the second compartment of the microphone capsule with the first fluid inside of the balloon, wherein vibrations of the balloon wall are coupled through the fluid communication channel to the flexible diaphragm within the microphone capsule;
wherein the microphone sensor of the first chamber of the microphone capsule senses movement of the flexible diaphragm, which movement of the flexible diaphragm corresponds to movement of the middle ear component sensed through the fluid communication channel, whereby the microphone sensor generates an electrical signal representative of the movement of the middle ear component.
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Accused Products
Abstract
An implantable microphone system, usable with a cochlear implant system or other hearing aid prosthesis, detects sound pressure waves (acoustic waves) at a movable member within the middle ear, e.g., the tympanic membrane or the stapes, through a fluid communication channel (20) established between the middle ear movable member and a microphone capsule (10). The microphone capsule (10) includes two compartments (11, 12) separated by a flexible diaphragm (13). One compartment (12) is in fluid communication with a thin-walled balloon, filled with a suitable fluid (30), positioned in contact with the movable member within the middle ear. The other compartment (11) is mechanically coupled through a suitable mechanical linkage (16) to a microphone sensor (14). The microphone sensor, in turn, is electrically connected to the cochlear implant system or other hearing aid prosthesis.
57 Citations
18 Claims
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1. An implantable microphone system, usable by a patient having a cochlear prosthesis, comprising:
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a microphone capsule having first and second chambers separated by a flexible diaphragm, the second chamber having a first fluid therein;
a microphone sensor within the first chamber that is in mechanical contact with the flexible diaphragm, the microphone sensor comprising a transducer that converts movement of the flexible diaphragm to an electrical signal;
a balloon implantable in the middle ear of the patient, the balloon having a second fluid therein, and having a wall adapted to be coupled with a movable component of the middle ear, wherein movement of the middle ear component causes the balloon wall to also move;
a fluid communication channel coupling the first fluid within the second compartment of the microphone capsule with the first fluid inside of the balloon, wherein vibrations of the balloon wall are coupled through the fluid communication channel to the flexible diaphragm within the microphone capsule;
wherein the microphone sensor of the first chamber of the microphone capsule senses movement of the flexible diaphragm, which movement of the flexible diaphragm corresponds to movement of the middle ear component sensed through the fluid communication channel, whereby the microphone sensor generates an electrical signal representative of the movement of the middle ear component. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. An implantable microphone system comprising:
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means for sensing motion of a movable member within the middle ear of a patient from a location within the middle ear, wherein the means for sensing motion of the movable member within the middle ear comprises a balloon filled with a fluid positioned within the middle ear, and wherein one wall of the balloon contacts the movable member within the middle ear; and
means for converting the sensed motion of the tympanic membrane to an electrical signal. - View Dependent Claims (14, 15)
a flexible diaphragm in fluid communication with the fluid within the balloon, and means for converting motion of the flexible diaphragm to an electrical signal that varies in magnitude and time synchronization with movement of the flexible diaphragm.
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16. An implantable microphone system comprising:
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a flexible diaphragm;
a fluid communication system coupled between a movable member within the middle ear of a patient and the flexible diaphragm, whereby movement of the movable middle ear member is transferred through the fluid communication system to cause the flexible diaphragm to move; and
a sensor that senses movement of the flexible diaphragm and generates an electrical signal as a function of the sensed movement.
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17. A method of sensing acoustic signals and producing an electrical signal representative of the sensed acoustic signals comprising:
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coupling motion of a movable member within the middle ear of a patient to a remote flexible diaphragm further comprising;
implanting a thin-walled balloon in the middle ear of the patient so that a wall of the balloon is in contact with the movable member;
implanting a microphone capsule in a cavity adjacent the middle ear, the microphone capsule having two chambers separated by the flexible diaphragm;
connecting a tube between the inside of the thin-walled balloon and one of the chambers of the microphone capsule;
filling the balloon, tube and chamber of the microphone capsule connected to the tube with a fluid, wherein motion of the movable member within the patient'"'"'s middle ear is coupled through the fluid to the flexible diaphragm within the microphone capsule and causes the flexible diaphragm to move; and
converting motion of the flexible diaphragm to an electrical signal. - View Dependent Claims (18)
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Specification